When you hold this mouse in your hand, you are actually holding molecules. As you sip a cup of coffee, you are actually drinking molecules, and that coffee aroma that reaches your nose actually consists of scent molecules that you are breathing in. Your tongue that tastes the coffee and your eyes that read these lines are also nothing more than assortments of organic molecules. When you breathe, you are actually inhaling molecules from the outside atmosphere. It is thanks to these very molecules that you can see, smell and taste. And just like everything around you, your body itself is also made up of molecules.
But exactly what are these molecules that comprise you, your skin, the chair you sit in, a cat's fur—and indeed, the entire universe? In fact, those molecules are nothing more than the mutual electron bonds shared among atoms far too small to be seen with the naked eye. By sharing electrons with each other, atoms link up in long-lasting partnerships, forming molecules. The results, invisible to the naked eye, are an astonishing and infinite variety of objects animate and inanimate, from planets to human beings, from rivers to green forests, from antelopes to railways, and from daisies to apples. In words accessible to everyone, this website examines how Allah (God) has created molecules and their extraordinary features by the seemingly simple means of bonds between atoms. Learning how invisible molecules make up all the matter the universe, using your reason and conscience, we can begin to see our Lord's infinite power, intellect and incomparable creations, will understand just how helpless we are before Him, and bow to Allah's great might. | |
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INTRODUCTION
THE MIRACLE IN THE ATOM
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Whenever you grasp a door handle, shake hands with a friend, or pat your dog, the sensations that arise in your hand are nothing more than the interaction of the electrons in the molecules comprising your hand with the electrons in the atoms comprising the door handle, your friend's hand, or the dog's fur. The strong wind that blows outside in stormy weather is actually no more than molecules that comprise the air approaching at high speed and striking the atoms that comprise you. The boiling of water in a kettle is the rapid movement of its molecules, transforming from a liquid to a gas under the effect of heat. In short, everything in the universe, great or small, consists of atoms, and what we perceive as heat or cold is the result of their swift or slow vibrations.
What makes atoms so miraculous is their extraordinarily small size and the features they possess. The diameter of the atom measures around one millionth of a millimeter (1 millimeter = 0.039 of an inch). To help you to better understand 100 million atoms placed side by side would make a line only 1 centimeter long. A single page of one book when you read is just 1 million atoms thick.1 When you realize that atoms make up everything in the universe, without exception—the giant spiral nebulae with their millions of stars, the planets, the Earth's mountains and seas—makes the extraordinary miracle here even more apparent. Another astonishing fact about the minute atoms is that 99.9999999% of its tiny volume actually consists of empty space! The remaining portion, of the atom—less than 0.1%-- consists of protons, neutrons, electrons, which are in turn composed of various subatomic particles. The neutrons and protons are fixed at the center of the atom and make up its nucleus. Yet the volume of the nucleus is just one ten billionth of the atom's volume. In constant revolution around this nucleus are the electrons, are so small that under an electron microscope their image is no more than a cloud of dust. Their mass is just 1/1,840 of that of a proton. In order to better understand this ratio, imagine that you have divided a tiny pinpoint into 1,840 parts. The electron is vastly smaller than any of these, because the larger proton possesses a mass many millions of times smaller than anything we can see. This example illustrates just how small this micro world really is.2
That part of the atom described as being "full" consists of these tiny particles. If it were possible to remove all the empty space in all the atoms in New York City's Empire State Building, the matter remaining would be smaller in volume than a box of sugar. Yet its weight—or as physicists call it, mass—would remain unchanged, and it would be impossible to lift this small box with even the most powerful winches.3
Why would an atom's mass remain the same when all empty space in it is removed? Because all its mass or density lies in the nucleus and the electrons that comprise it. Therefore, even though the nucleus and electrons represent less than 0.1% of the atom's volume, they still exert an incredible force.
 If you remove all the empty space inside the atoms comprising the Empire State Building, its volume will be that of a box of sugar. However, they will lose none of their mass. Not even the most powerful winches will be able to move this box. |
An atom's diameter may be as smaller than a billionth of a centimeter (1 centimeter equals 0.4 of an inch). But the subatomic particles are hundreds of thousands of times smaller than the atom itself. Almost all the atom is empty. If an atoms' nucleus were enlarged to the size of a grain of rice, the size of the whole atom would be that of a football stadium, with the electrons as minute specks of dust flying around the outer stands. At the beginning of the 20th century, British physicist Sir Arthur Eddington dramatized this fact:
I am sitting at a table, writing this paper. However, when I describe this "real" table in the language of science as I understand it, it is "a ghost"; in fact it is made of atoms that are themselves mostly empty space.4 The physicist and psychologist Peter Russell states that in fact, the 0.0000001% in question does not represent matter as we know it:
With the development of quantum theory, physicists have found that even subatomic particles are far from solid. In fact, they are not much like matter at all—at least, nothing like matter as we know it. They can't be pinned down and measured precisely. Much of the time they seem more like waves than particles. They are like fuzzy clouds of potential existence, with no definite location. Whatever matter is, it has little, if any, substance.5 Hans-Peter Durr, a professor of physics and head of the Max-Planck Physics Institute, clearly expresses the fact that "matter was not made from matter."6 Therefore, even though you perceive that the matter we touch is hard in the structure of matter, there is actually nothing to give rise to this solid hardness. The atoms that comprise that matter consist of no more than empty spaces and energy waves.
THE FORCES THAT HOLD THE ATOM TOGETHER
How can particles too small to be seen with the naked eye be arranged in empty space to form an atom? These particles give rise to the atom with a very special creation. One of the most important features of this special creation is the basic forces that cause particles to both attract and repel each other. These basic atomic forces act on the particles comprising the atom, in the same way that larger forces control all the more observable balances in the universe, from atmospheric pressures to the Earth's orbit. These fundamental atomic forces are known as the Strong Nuclear Force, the Weak Nuclear Force, the Force of Gravity and Electromagnetic Force.
 The four basic forces controlling all the balances in the universe are so delicate that even the slightest alteration in their levels might lead to the extinction of life. A small impairment in a sensitive balance might lead the planets to fall into one another and turn into clouds of fragments and for the universe itself to cease to exist. |
These forces are calculated at such fine levels that the slightest change in them would lead to the extinction of life, to planets eventually colliding with one another, and the collapse of the universe itself. For example, if the force of gravity were slightly stronger or weaker, the fixed orbits of the stars would be affected: They would either move ever closer to one another and eventually collapse into massive black holes, or move apart, eventually to drift haphazardly through the voids of space. These fundamental forces have been created at precise levels in such a way as to ensure a flawless balance in both the tiny micro world as well as across the most enormous interstellar dimensions. Each force is the product of a divine creation, planned to fulfill its own special purpose in the universe. This belongs to Allah, Who has created everything flawlessly, from the greatest to the smallest. In a verse, Allah reveals that He possesses the knowledge of all things in the heavens and Earth, from the largest to the smallest:
. . . He is the Knower of the Unseen, Whom not even the weight of the smallest particle eludes, either in the heavens or in the Earth; nor is there anything smaller or larger than that which is not in a Clear Book. (Surah Saba': 3)Of these forces, Strong Nuclear Force provides a most important equilibrium within the atom. All things being equal, under ordinary circumstances, the protons in the nucleus should repel one another and move as far apart as possible. That is because all protons are positively charged, and identical charges always repel each other—as you can demonstrate by bringing together the north poles of two separate magnets. Thanks to Strong Nuclear Force, however, protons are clamped against one another, along with neutrons that bear no charge, at the center of the atom inside the atom's nucleus. In other words, Strong Nuclear Force allows the atom's nucleus to exist by holding its protons together. To better comprehend the power of this force, consider the effect of an atomic bomb. A nuclear explosion results of when a particle—generally a neutron—is hurled to "split" the nucleus of a uranium or plutonium atom. As the nucleus comes apart, the strong force is released that formerly held the protons and neutrons. The release of incomparable energy vaporizes everything nearby, and the radioactive after-effects linger on for hundreds of years. This force concealed within an atom is imperceptible, but its power leaves any creature exposed to it utterly helpless and defenseless. The Strong Nuclear Force operating in the nucleus is finely balanced to possess the ideal values for the formation of matter, and has maintained the existence of the universe ever since it came into being. If this force were even slightly more powerful, protons and neutrons would combine with one another. Were it slightly less powerful, these particles would separate from each other, dissolving the atom and creating a subatomic "soup" of particles that would prevent the formation of any animate or inanimate entities, the Earth, the Sun or even the universe itself.
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The Strong and Weak Nuclear Forces do not affect the atom's electron as they do its protons and neutrons: Electrons are not affected in the same way as the other particles because they are so much smaller, are in constant motion and possess little mass. Electrons revolve without departing from their orbits around the nucleus because of the Electromagnetic Force's effect on them. Due to its negative electrical charge, an electron revolves constantly around the positively charged nucleus. The centrifugal force that arises during the rotation of the electron on its orbit is exactly balanced by Electromagnetic Force, and the electron thus remains in its orbit. The delicate level of the Electromagnetic Force keeps electrons from being drawn into to the nucleus or totally departing from it. That is how the structure of the atom arises.
Before moving on to electrons, of great importance in the formation of molecules, let us briefly recall on the details of the atom's structure. So far, the information you have read in summary form is the same as what you can find in any physics text. However, textbooks of that kind are not likely to emphasize the miraculously perfect structure of the atom and its thought-provoking aspects. Inanimate particles only a millionth of a millimeter (1 millimeter equals 0.04 of an inch) in size come together flawlessly to form life and non-living substances, just as they form the billions of stars, rivers, the sky, mountains, flowers, human beings and the seas. How atoms impart an order to all this creation is little discussed.
Another fact is generally seldom mentioned: The strengths of the universe's four fundamental forces are very different from one another, which differences are very delicately balanced. For example, the Strong Nuclear Force is around a billion, billion, billion, billion, billion times stronger than the force of gravity. The difference between the Strong and Electromagnetic Forces is greater than a million times million.
 An ordinary substance consists of atoms that combine through electromagnetism to give rise to the molecules that constitute solids, gasses and liquids. Atoms consist of a dense nucleus surrounded by a cloud of electrons. Electromagnetic forces keep the electrons in orbit around the nucleus. The nucleus consists of protons and neutrons, which are bound together by the Strong Nuclear Force. Protons and neutrons each consist of three quarks. These are held together with the Strong Nuclear Force. |
If these values were different, what would happen?
The weak and strong nuclear forces, electromagnetic forces and gravitational force must all be in their exact critical values in proportion to each other, in order for the galaxies, stars and for all the living things to exist at all.
If not, protons would not stay together in the atomic nucleus. Electrons would disperse, and a single atom could not exist. The entire universe would consist of radiation and random particles, with no stars, planets or human beings.
If the gravitational forces were any more powerful, entire galaxies would become collapsed into black holes instead of maintaining themselves by centrifugal force. Were it less powerful, stars would not be able to form the heavier elements necessary for life on planets. For instance, if the Strong Nuclear Force of the atoms constituting your body at this moment were to weaken a little—a deviation from the actual value by only thousandth—, your body would be obliterated instantly.
Yet thanks to the sensitive balance of the four fundamental forces, the atoms that constitute your body and the entire universe remain stable. This sensitivity has astonished scientists. As the famous astrophysicist Paul Davies, comments,
[with] a slightly different set of numbers, the world would be a very different place. Probably we would not be here to see it. . . . And when one goes on to study cosmology incredulity mounts. Recent discoveries about the primeval cosmos oblige us to accept that the expanding universe has been set up in its motion with a cooperation of astonishing precision.7 That the universe is arranged with an astonishing sensitivity means that it was created.
As you already saw, scientists refer to the physical forces in the universe as the "four basic forces," yet their definitions fail to account for why such forces exist and why they are so exquisitely balanced. If we reach beyond these definitions, we soon realize that Almighty Lord keeps the universe regulated at every moment.
The discovery made by modern physics is in fact nothing more than a secret revealed by Allah in the Qur'an 1,400 years ago:
Allah keeps a firm hold on the heavens and Earth, preventing them from vanishing away. And if they vanished no one could then keep hold of them. Certainly He is Most Forbearing, Ever-Forgiving. (Surah Fatir: 41)
For anyone who employs reason and conscience, that an atom consisting of more than 99.9999999% empty space possesses such vitally important properties is yet another miracle of Allah's creation. Our Lord reveals that there are proofs for believers in His creations:
In the alternation of night and day and what Allah has created in the heavens and the Earth. There are Signs for people who guard against evil. (Surah Yunus: 6)
The most important of the flawless atoms' many attributes is that they combine to create molecules. In the formation of molecules, electrons play the crucial role. Before moving on to this subject let us examine electrons.
Electrons: The Atom's Outermost Shell
 Under the effect of the forces that affect their intense energy, electrons constantly spin around themselves and in an orbit around the nucleus. The spin electrons perform thanks to the energy they possess is one of the main causes of the equilibrium in the universe. |
The energy possessed by electrons displays an impeccable equilibrium that can be dramatized by the following example. Under normal conditions, it is impossible for you to balance a plate of wide diameter on top of a long rod. Yet if you give the plate a specific rate of spin of so many rotations per second, it will remain spinning on the end of that rod. The plate will inevitably fall and break when it loses speed. Therefore, all that's necessary to attain such equilibrium is an appropriate level of energy. This is the secret underlying the fundamental balances in the universe. Momentum is what keeps the planets rotating around the Sun and the electrons around the nucleus of the atom. Thanks to this angular momentum, which is regulated with the greatest sensitivity, electrons orbit around the nucleus constantly, and the rotation they perform prevents them spinning away from the nucleus.
Electrons orbit the nucleus at the truly extraordinary speed of 1,000 kilometers (621 miles) per second. 9 Yet despite this high velocity, they never collide with one another because electrons all bear a negative electrical charge and therefore repel one another. However, that fact does not answer the question of why all electrons are negatively charged. Why do identical charges repel one another? How did these particles that repel one another come to be in orbit? All these questions once again reveal the sensitive balance and creation in the atom. In fact, we are dealing with a great miracle. In some atoms, more than 100 electrons orbit the nucleus. The way that electrons are divided into up to seven orbits, revolving in levels at high speed, with no confusion ever arising and never colliding with one another, is the product of an impeccable creation.
There are up to seven different energy levels around the nucleus, which creates seven different orbits for electrons. Each electron adheres to one of these paths, depending on the energy level it possesses. The reason why electrons, which always possess the same mass and velocity, have different energy levels is a point to consider. In the system in the universe, bodies with different masses and velocities wind up in different orbits. The most familiar example of this is the planets in our own Solar System. All planets have different masses and different speeds, following different orbits. However, this arrangement does not apply to electrons. There is actually no reason for these particles—whose masses and velocities are always the same—to possess different energy levels. This is a most special design created by Allah, because it is essential that these different orbits exist in order for molecules to form. The different orbits within the atom gives rise to the molecules and compounds that make up ourselves and the entire universe. At the same time, they also give rise to colors, because one of the causes of different colors is how electrons in one orbit jump across to another' level.
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The Lord of this flawless and most superior artistry is Allah, Who reveals in one verse:
He to Whom the kingdom of the heavens and the Earth belongs. He does not have a son and He has no partner in the Kingdom. He created everything and determined it most exactly. (Surat al-Furqan: 2)
THE FLAWLESS CREATION IN THE MOLECULE
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The mouse you are holding in your hand, your hand itself and your fingernails, your television and furniture, the chair you are sitting on, the flooring beneath it, the lamp that you read by, and the water you drink—all these are substances with entirely different properties. Since they are all made up of atoms, how is it that they can possess such totally different features and appearances? The answer lies in molecules. Combinations of atoms of the roughly 109 or so different elements of in existence, in different numbers and forms, give rise to this marvelous variety.
The variety occasioned by just 109 types of atoms forming various compounds is truly extraordinary. Every substance that forms has one or more different uses, and many of them are of vital importance for life. Consider: How many different combinations can you make with 109 components? Many, but in addition, can you ensure that all of them are functional? The number you can give is of course far less. Yet through an astonishing creation, these 109 different atoms give rise not only to an infinite variety of compounds, but also to such sensations as taste, smell, color, hardness, softness, viscosity and volatility. Not only does this magnificent variety provide countless beauties and artistry, it is also necessary for organisms to survive. For example, the fact that water can assume three states—vapor, liquid, and solid—constitute one of the fundamental prerequisites for life on Earth. (This point will be examined in greater detail later.)
How can these 109 atoms produce literally billions of different types of molecules? Here the importance of electrons becomes apparent. In order for a molecule to form, electrons are either transmitted from one atom to another, or are used in common by two atoms. In this way, a molecule consisting of at least two atoms emerges. This process is of course far too complex to be fully explained in a single paragraph. The two atoms' exchange of electrons is known as a chemical bond. Yet there is actually no "bond" at all, just one electron passing back and forth between two atoms. What binds the atoms together is the journey that electron makes from one atom to the other. The form of these chemical bonds—essentially, electron sharing—and the nature and the numbers of the atoms that combine together, determines the structure and nature of the molecule. In order to clarify the subject, let's first examine the chemical bonds that permit molecules to form.
THE CHEMICAL BONDS THAT MAKE UP MOLECULES
A freely moving atom is attracted or repulsed by other atoms around it. Under this effect, two atoms may approach and attach to one another, become re-arranged to achieve a stable structure. This results in the atoms surrendering their own distinctive properties and coming into possession of new features together, and forming a new substance with entirely different characteristics. For example, two hydrogen atoms and an oxygen atom that join together give rise to a new structure—a stable water molecule.
The skyscrapers in large cities, your home, the table in your kitchen, the fruit you eat, the water you drink—these are all different materials with different properties. In various amounts and configurations, the combination of the 109 elements found in nature gives rise to the astonishing variety on Earth. Just as these 109 elements give rise to different substances, they also provide such details as smell, taste, color, hardness, softness, viscosity and lightness. How many different substances can you make by combining 109 separate components? The number will of course, be large but still a finite one. Such magnificent variety from such limited raw materials doubtless displays the great artistry of Allah. |
If the newly emerged compound were not stable, it would soon dissolve. By analogy, a new organ transplanted into a patient's body during a transplant operation will impair the stable structure of that body unless it can adapt itself. In a similar way, atoms that combine together must produce a stable compound by adapting to one another.
Electrons have vitally important ways of bonding in order for the resulting molecules to remain stable, and every atom employs the bonding form appropriate to it. Let us now examine these bonds.
Atoms Engaged in Electron Exchanges Construct Ionic Bonds
The electron exchange among atoms is analogous to partners pooling their capital to start a new business. If one of the parties lacks sufficient funds to open a new plant, that person will declare himself a partner and borrow the needed amount of capital from another partner. Thus a lasting business agreement is arrived at. When the available capital grows, the number of eventual partners may rise. Atoms achieve a stable structure only when the number of electrons in their outer shell reaches 8. The neon is a very stable atom with eight electrons in its outermost orbit. |
For the transfer of a large number of electrons in exchanges between atoms, a considerable amount of energy is necessary. For that reason, the most economical partnership is determined. For example, a chlorine atom has seven electrons in its outer orbit. Instead of lending seven electrons to another atom, it will be enough to receive one electron from another atom in order to complete its "capital." The most appropriate atom to donate an electron is sodium, because of the single extra electron it possesses in its outer shell. When sodium lending its one spare electron to the chlorine atom, the sodium chloride molecule is formed—and the result of this partnership is the salt you use in cooking and eating. Ordinary table salt is nothing more than a single electron exchanged between these two atoms. One important point to remember is that pure sodium is actually explosive, and that pure chlorine, a gas, is poisonous. Yet as a result of flawless planning, the mixture of explosive and poisonous atoms emerges as a substance that meets our culinary needs.
 The sodium atom donates its single outermost electron to the chlorine atom with its seven outermost electrons in order for both to attain a stable state. The molecule formed by these two atoms, bound together with an ionic bond, is sodium chloride, the table salt you use in everyday life. But by itself, sodium is explosive and chlorine is poisonous. |
Can this consciousness belong to the atom itself? Does the atom plan its bonding or become aware of it? Such an idea is of course impossible. That conscious planning belongs to Allah, Who creates atoms and inspires in them their systematic, inerrant behavior.
The outer electron shell that enables atoms to construct bonds with one another and which permits chemical reactions is a miracle by itself. If atoms had no tendency to limit the number of electrons in their outermost orbits, then no molecules or compounds could form anywhere in the universe, and life would therefore not be possible. So why do atoms have such a tendency? Scientists have no answer to that question!
The only explanation for the way that atoms are structured to form compounds ideally suited to life, is creation. The atomic structure has been determined in such a way as to make possible the formation of chemical bonds, and Allah has created the laws of nature that will permit this perfect order. This again reminds us that He has created the entire universe, and of the purpose and great wisdom behind His creation. In one verse, Allah states:
This is Allah's creation. Show me then what those besides Him have created! The wrongdoers are clearly misguided. (Surah Luqman: 11)
Atoms Share Their Electrons and Establish Covalent Bonds
 The proportions at which sodium combines with chlorine, and at which hydrogen binds with oxygen, have not been determined at random. It is Allah Who determines all such proportions and creates them in immaculate harmony. |
To help you understand these atomic bonds more clearly, take the example of the hydrogen atom, which possesses only a single electron. This exceedingly simple atom tries to double its single electron in order to achieve greater stability. As you have already seen, there needs to be a specific number of electrons —eight—to be circling in an atom's outermost orbit. The only exception to this rule is in an atom's first orbit, where the ideal number of electrons is two. Therefore, it is sufficient for a hydrogen atom, with its single electron in a single orbit, to obtain only one more electron to attain stability. To do so, hydrogen establishes bonds with various atoms. The hydrogen gas present in the atmosphere is nothing else than two hydrogen atoms joined by a covalent bond.
Similarly, an oxygen atom has six electrons in its outer orbit. In order to become stable, it needs to raise that number to eight. It therefore seeks two hydrogen atoms—each of which possesses a single electron— with which it can establish a covalent bond. .
These calculations for oxygen and hydrogen are not randomly determined. It's no coincidence that oxygen has six electrons and two hydrogen atoms can make up this deficit. Thanks to the atoms' mutual harmony, water—the most essential substance for life—is created. Allah determines these proportions and creates stable, harmonious atoms and water. This is openly revealed in the following verse:
We send forth the pollinating winds and send down water from the sky and give it to you to drink. And it is not you who keep its stores. (Surat al-Hijr: 22)
Some Atoms Are Attached by Hydrogen Bonds
 (Side) Image of DNA double helix taken with a colored micrograph (STM) |
Hydrogen bonds are weak, meaning that a low level of energy is sufficient to break the bond. Weak bonds play a most important role in the formation of larger organic molecules, because these bonds are elastic. They impart flexibility to the substances they give rise to. During this elasticity, however, no rupture takes place between any of the bonds forming the molecule.
This distinguishing feature of hydrogen bonds is of great importance for many molecules on Earth. The clearest example is the DNA molecule: The many miraculous processes it performs in the body are to a large extent results of the hydrogen bonds the molecule possesses. In due course, you shall see this in greater detail, as well as other molecules that acquire distinguishing features thanks to their hydrogen bonds.
 DNA STRUCTURE The molecules comprising DNA are attached with a hydrogen bond. The miraculous functions that the DNA molecule performs result to a large extent from the flexibility of these hydrogen bonds. Nucleotides attach to polymers via covalent bonds by way of sugar and phosphate groups. A water molecule is released during this reaction. The covalently bonded polymer and sugar groups form the backbone of DNA. Their nitrogen bases extend inwards. Here, a great many weak hydrogen bonds link the two halves of the helix. |
In order for life to emerge, there are more combinations of atoms than anyone can possibly guess. There are more atoms in a visible period on this page than there are stars in our galaxy.10 The apple you hold, the home you live in, your own body, and even the planet you live on are all composed of atoms. Yet the bonds described above are nothing more than the movements of absolutely minute electrons. It is their movements that give rise to the air you breathe, the home you live in, cats and dogs, the scents of flowers, the taste of apples, the water you drink, the enzymes in your body—in short, to everything that exists.
Can you imagine how many electrons are traveling among the millions of atoms in a single punctuation mark? The emergence of such a broad, wide-ranging universe from such a microscopic sphere, which even a powerful electron microscope shows as a blurred cloud of dust, is quite extraordinary. The emergence of something out of nothing—of weight and substance from emptiness, color from colorless, and scent from no odor are all proofs of the superior nature of Allah's creation.
It is Allah, Lord of infinite intellect, might and knowledge, sovereign over the earth and sky, Who creates all things, from subatomic particles to mountains, stars and human beings. This is revealed in this verse:
Allah, there is no god but Him, the Living, the Self-Sustaining. He is not subject to drowsiness or sleep. Everything in the heavens and the Earth belongs to Him. Who can intercede with Him except by His permission? He knows what is before them and what is behind them but they cannot grasp any of His knowledge save what He wills. His Footstool encompasses the heavens and the Earth and their preservation does not tire Him. He is the Most High, the Magnificent. (Surat al-Baqara: 255)
Molecules' Ceaseless Motion
When you sit quietly in a room, with no noises around you, you imagine that nothing is moving. Yet in fact, everything around you—not just the air—is in a constant state of motion. How can that be? The countless molecules in the air revolve and strike one another billions of times a second. While you are sitting quietly, alone in your room, you are actually in the middle of a molecular bombardment. And not only the molecules in the air, but molecules in your skin, table and the pen in your hand are also in a constant state of vibration. Despite this intense activity, your surroundings appear calm and in equilibrium. |
The trillions of molecules in the air collide with each other billions of times every second and continue on until they strike one another again. Thus when you imagine you are sitting all alone, perfectly still, you are actually in the midst of a molecular bombardment. This bombardment can sometimes assume the state of a violent wind, powerful enough to uproot trees and tear down buildings.
It's not only the molecules in the air that move. The molecules in your skin and the mouse you are holding are also in a constant state of motion. You may well wonder: How can a stone wall, one that even the most powerful winch would have difficulty lifting, be in a state of motion? But a wall really does move—but this is merely in microscopic vibration, since the molecules comprising it are compressed much closer together. Despite matter all around us being comprised of particles in a constant vibration, it always appears solid and sound. Despite its inner vibration, it never suddenly breaks up or falls apart.
The motion of this kind among molecules also must be balanced. The vibration referred to here is a form of motion that ensures equilibrium in solid bodies. Furthermore, except in a wind or river, molecules never move in one fixed direction alone. Were such a possibility to take place, with all molecules moving in the same direction, we would be astonished to see the dining table traveling a certain distance.12 Yet we never actually encounter such a possibility because, as a blessing from Allah, the molecules comprising a solid body cancel each other out. Thus no such irregularity of their moving in a single, fixed direction ever arises.
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Do you not see that Allah sends down water from the sky and then in the morning the Earth is covered in green? Allah is All-Subtle, All-Aware. (Surat al-Hajj: 63) |
Why do your hands become warmer when you rub them together? Why do two sticks smolder when you rub them swiftly together? The molecules begin moving faster. The feeling of heat in your hands is the result of the energy produced by that movement.
Though molecules are in a constant motion, generally we never perceive this. The molecules in the patterns on your tablecloth are also in motion, but you never see those patterns become impaired or deformed. Your face also consists of molecules, also in motion, but this never leads to any defects arising. Every object on Earth, even the most microscopic, is in constant motion. Yet there is no sign of this to be seen around you.
 The molecules comprising a substance never separate from one another for no reason. A specific temperature is required to separate molecules. The temperature for the evaporation of water helps maintain the water cycle that permits the amount of fresh water in the world to remain stable. This recycling of water is created by Allah to maintain life on Earth. |
What would happen if this were not ensured by such a delicate and bounded equilibrium, or by the unchanging standards referred to by scientists as the laws of nature? Were there no such equilibrium, then everything on Earth would melt at the same certain temperature. For example, if everything were affected at the same temperature at which water boils, then nothing, the proteins and cells in our bodies included, could remain stable. Yet we never encounter such a danger, because everything in the universe has a determined balance and measure. The fact that water evaporates when it reaches a specific temperature makes this molecule vitally important. The water cycle on Earth is the result of this specially created system of evaporation and condensation.
Every molecule possesses a feature establishing its state at this very moment. This, of course, is a sign of the might of Allah, Who has determined a measure for all things and Who has created every measure in harmony with all others. In one verse, He reveals:
...He encompasses what is in their hands and has counted the exact number of everything. (Surah al-Jinn: 28)
MOLECULES IN OUR LIVES
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In short, the atoms of the 109 different chemical elements combine in various forms to constitute everything around us. The special features of these creations allow very different material properties to emerge. Sometimes a single atom added to a molecule may turn it into a toxic substance. A single atom added or removed can turn an inedible molecule into a nourishing one, or a sharp and sour smell into the delightful fragrance of a rose. The same atoms, if bonded to one another in different arrangements, can change the molecule's color, or solidify a fluid substance. The universe is an arena where this matchless artistry, whose secrets scientists haven't yet totally unraveled, is displayed. The miracles created by Allah in an infinitesimal, invisible world exhibit His infinite knowledge and sublime artistry.
In order to see this artistry up close, we need to examine the features that molecules possess, and how they have been specially created for life to exist.
The Great Miracle of Water
 We send forth the pollinating winds and send down water from the sky and give it to you to drink. And it is not you who keep its stores. (Surat al-Hijr: 22) |
Significantly, the salt water of all the seas and oceans that comprises 97% of the Earth's water actually serves human beings and other land-dwelling life. Thanks to the accumulation in the clouds of water evaporated from the oceans, and that later descends to earth in the form of rain, that fresh water reaches the dry land. The seas and oceans covering more than 70% of the planet's surface are at the ideal levels for this evaporation. Were the amount of dry land any greater, then arid lands and deserts would increase enormously. Were it any less, then the areas remaining would become unproductive for agriculture due to the excessive rain that they would receive.
Allah has created the Earth's land-water ratio at the ideal level to support human life and gives us clean water that we could not acquire unless He so wished. This fact is revealed in a verse:
Have you thought about the water that you drink? Is it you who sent it down from the clouds or are We the Sender? (Surat al-Waqi‘a: 68-69)
Inside itself and around it, water shelters a great many living species. Even the smallest drop of water may contain hundreds of microorganisms. Water is also found inside living organism, and comprises between 50% and 95% of all the bodies of all living things.The way that water is formed—by the coming together of two hydrogen atoms and one oxygen atom—is just as thought-provoking as its features and uses. It is actually rather difficult for these two atoms to come together in such a way as to form water. When you bring hydrogen and oxygen atoms together in a controlled environment like a test tube, you cannot see them suddenly combine into water molecules. You could not achieve such an outcome even if you waited for hundreds of years. Water would appear in the tube only after thousands of years, and then in only very small quantities. And that is still a remote possibility.So how can we obtain such a vital necessity for life? As you know, a high level of energy—therefore, a high temperature—is necessary for certain molecules to come into being or undergo changes. The same applies to water. In order for two molecules of hydrogen (H) and one of oxygen (O), to combine together and form water, they need to contact one another. During that process, the chemical bonds that form the hydrogen and oxygen molecules weaken, and the atoms link up in such a way as to create a new molecule: water. At present, the temperatures on Earth are too low to permit any possibility of new water formation. The water currently on Earth is at a level formed as a result of the high temperatures during the birth of the planet.14 That amount can never change. Under the effect of differing temperatures, water can be found in three different states. Solid-state water appears in the form of giant polar icecaps, where it seems to have been especially reserved. The water we use eventually evaporates and rises into the air in its gaseous state, and returns to Earth in a liquid form—rain. Thus the water you drink, use and absorb with the food you eat regularly returns to us in a more purified form. In short, thanks to its specially imparted features, we can use the same water over and over again. At Allah's behest, water is constantly bestowed on us in a purified state:
. . . We send down from heaven pure water so that by it We can bring a dead land to life and give drink to many of the animals and people We created. (Surat al-Furqan: 48-49)
The Source of the Miracle of Water: Hydrogen Bonds
 Under the effect of hydrogen bonds, bodies of water always begin to freeze from the surface. This means that all living things under the ice have a shelter in the winter. Water in the lower levels chills to no less than 4 degrees Celsius (39.2 degrees Fahrenheit). By means of this special balance created by Allah, living things in the water underneath can survive the winter. |
The weak hydrogen bonds between water molecules also results in the different densities of liquid water and ice. Almost all known substances are denser as a solid than in their liquid form in. For example, under normal conditions when you drop lumps of iron into molten iron, the solid lumps will sink to the bottom. Yet with water, this does not happen because ice, water's solid state, is less dense than liquid water. When water freezes, every molecule grips tightly onto its neighbor because of the hydrogen bonds, but the distance between these molecules remains quite large. Therefore, gaps remain between the bonds, and the structure of water in its solid form contains more empty space than its liquid counterpart, making it less dense.15 As a result, when you drop ice cubes into a glass of water, the ice inevitably rises to the surface—as do icebergs in the ocean. This characteristic of water is of the greatest importance for life. Due to this effect of the hydrogen bonds, bodies of water always start to freeze from their surface down. In winter, ice forms on the upper layers of lakes and seas, and the mass of water beneath the ice remains in a liquid state. Thanks to this, thousands of water-dwelling organisms are able to survive. At the same time, the ice at the surface also acts as a protective layer that insulates the underlying water and keeps it from growing too cold. The mass of water below chills to no colder than 4ºC (39ºF), which temperature lets marine organisms survive. This is another special creation brought into being for living things. If ice were denser than water, lakes and oceans would begin to freeze from the bottom, and with no insulation, would freeze right up to the surface. A large part of Earth's northern seas would consist entirely of ice, and aquatic life would come to an end.
 The molecules on the water surface establish hydrogen bonds with one another and also with those beneath, giving rise tosurface tension. Some of these hydrogen bonds need to break in order for a light insect to sink beneath the water's surface. |
These properties of water, which are so familiar but seldom reflected on, are a great blessing from Allah. Water acquires such characteristics, and living things are able to survive on it and in it because Allah so wishes. Allah has set out this fact in a verse:
Allah is He, Who created the heavens and the Earth and sends down water from the sky and by it brings forth fruits as provision for you. He has made the ships subservient to you to run upon the sea by His command, and He has made the rivers subservient to you. (Surah Ibrahim: 32)
The force that helps a tiny green grass seed emerge from the soil, and lets giant trees grow several hundred meters (or several hundred feet) tall, is again closely related to the miraculous properties of water. Due to its molecular property and method of bonding, water enters a plant's roots and extends upward along very narrow tubes inside. The water's ascent may sometimes be tens of meters (hundreds of feet), may divide into dozens of branches and twigs. This property of water, which other liquids could not accomplish so easily, is known as capillary movement. At the same time, water is capable of being absorbed. As soon as it comes into contact with substances like wood or gelatin, it is able to penetrate them.18 The way that seeds begin sprouting swell up by absorbing water also stems from this property of water's being absorbable. If not, even though there were water and seeds under the ground, then there would be no trace of the plant kingdom and all life on Earth would disappear. Water is a special liquid in which molecules are able to move with ease. Despite being a solvent, water does not dissolve the skeleton. Allah has combined the calcium and phosphate molecules that comprise our bones in a special way so as to protect them against the dissolving properties of water. Thanks to this perfect creation, the moisture in your body does your bones no harm. |
Water is also an ideal perfect solvent. A great many substances (sugar in particular) dissolve easily in water because they can build hydrogen bonds with it. Molecules such as salt or minerals, joined with ionic bonds, can also dissolve easily in water. Its solvent property is also very important to our own bodies; it creats a perfect vehicle to transport nutrients to our cells. At the same time, water at body temperature is an ideal liquid for the movement of molecules inside the cell. Despite its solvent properties, however, water can not dissolve calcium phosphate, so that your own body fluids do not dissolve the bones of your skeletons. 20 This special molecular structure that constitutes your bones is made up in a particular way to withstand the solvent property of water. Different molecules assume different forms inside your body, itself the result of the multiplication of a single cell, to bestow different features on you. While all these anatomical changes were taking place, how could molecules themselves have decided that those to be transported inside the cell should be soluble in water but that your bones should be resistant? How can cells know that nutrients need to dissolve in water? It is of course illogical to expect any cells to be familiar with molecules, know their appropriate levels of solvency, and take precautions beforehand to ensure the ideal metabolism.
These are Allah's sublime creation. Allah has created all these properties possessed by a human fetus, who begins to grow inside his mother's womb, and all the molecules in that body. This is revealed in another verse:
 The hydration layer that forms with hydrogen bonds prevents sodium and chloride ions combining together, so that these two molecules are unable to form salt. |
Allah – Him from Whom nothing is hidden, either on Earth or in heaven. It is He Who forms you in the womb however He wills. There is no god but Him, the Almighty, the All-Wise. (Surah Al ‘Imran: 5-6)
Only since the 20th century we humans been able to investigate the substances that comprise the universe at the molecular level. Water, however, was set out in perfect quantities when this Earth was coming into being and intelligently created with all the ideal attributes for the formation of life. It's a miracle whose detailed properties scientists have only recently discovered. However, Allah created water and equipped it with the ideal properties for living things long before the first living organism came into existence. The fact that all of water's properties arise from the special design inherent in two atoms of hydrogen and one of oxygen shows the flawless depth of detail in His sublime creation. Allah reveals in one verse: In the creation of the heavens and Earth, and the alternation of the night and day, and the ships which sail the seas to people's benefit, and the water which Allah sends down from the sky—by which He brings the Earth to life when it was dead and scatters about in it creatures of every kind—and the varying direction of the winds, and the clouds subservient between heaven and Earth, there are Signs for people who use their intellect. (Surat al-Baqara: 164)
The Addition of One Extra Oxygen Atom Can Turn Water Poisonous
 The atoms comprising water combine with another oxygen atom at specific energy and temperature levels, to form a molecule with the formula of H20. This might appear to be only a small change. Yet this newly added atom turns water, which we can use for drinking, into hydrogen peroxide, a toxic and harmful liquid. |
Hydrogen peroxide is a powerful oxidant that destroys or severely damages any organic compounds that come into contact with it. Because of its toxic effect, it plays a role in forming fog and pollution in the air. Due to its powerful chemical effects, it is also effective bleach, oxidizing and eliminating pigments such as melanin, which are responsible for black, brown and sandy colors. In dilute solution, this substance is used to turn dark hair blonde.21 By itself, the way that atoms produce molecules with a wide variety of features shows a most sublime artistry. However, for a single atom to turn a molecule from entirely useful to entirely harmful, and into a toxic product from one necessary for life, is astounding. What this marvel means is that when Allah so wishes, He can create new properties by means of a single atom, invisible to the naked eye. The enormous chemical difference that develops from the tiny atomic difference between water and hydrogen peroxide shows evidence of a superior creation, the likes of which cannot be imitated in any way. Chance can never account for the formation of this immaculate structure, in which a single atom added to a molecule changes all its properties. Such fine-tuning can only exist under the control of a superior Will that belongs to Allah, Lord of the Worlds.
Carbon, the Basic Building Block of Life
 Carbon can establish strong covalent bonds with other carbon atoms. Since these bonds are very strong and sound, they permit very large and long molecules to form. Carbohydrates are some of the most vital of these molecules. |
When you mix another color with white, the result is always a completely new shade. When you add a third color, the variety of possible colors rises still further. Some colors, however, produce new colors only when added to specific ones. And black swallows up whatever color you mix with it. Apart from a few exceptional cases, you cannot obtain a new color from black. In chemical terms, carbon rather resembles the status of white. It can form compounds with just about every other atom or molecule in nature and give rise to new substances of the greatest importance to life. This means that carbon is a great marvel of creation.
Particularly interesting is the fact that this vitally important element exists in relatively small quantities! . By weight, carbon comprises only 9 to 10 percent of the composition of all living things, and only 0.017 percent of the composition of the Earth.22 Despite its small quantities, however, carbon is present in every part of your life, including in your own body, and cannot be replaced by any other element.
The way that carbon can easily combine with other elements stems from the bonds it establishes with them. Thanks to its molecular properties, carbon can add the same kinds of atoms to one another and also combining different types of atoms as well. Most atoms generally can establish bonds only with particular other elements and not others. But carbon also establishes very strong covalent bonds with other carbon atoms. Since these bonds are so very sound and strong, they afford the possibility of forming very large molecules. The carbohydrates, proteins and nucleic acids in the human body are sizable molecules resulting from carbon bonds of this kind.
 Allah is He Who raised up the heavens without any support—you can see that—and then established Himself firmly on the Throne. He made the sun and moon subservient, each running for a specified term. He directs the whole affair. He makes the Signs clear so that hopefully you will be certain about the meeting with your Lord. (Surat ar-Ra'd, 2) |
Scientists are still carrying out research of this kind. The discovery of carbon on other planets will enlighten scientists as to whether there once was life on Mars. Despite all the speculation, however, life forms that are not carbon-based are clearly impossible, for a great many reasons.
A number of conditions must be met for carbon to form its special organic compounds. That's the main reason why carbon-based life survives on Earth, since ours is the only planet known to possess the right conditions for carbon to give rise to compounds.
For example, the temperature range necessary for carbon to form compounds is between –2º and 120ºC (between 28º F and 248º F). Carbon compounds begin to freeze at –20ºC (–4 ºF) and to split apart at 120º C (248º F). In a forest fire, for instance, excessive heat totally alters the structure of tree trunks, and the carbon molecules lose their original structure as these compounds are broken down. The carbonized tree now exhibits a different blackened appearance.
As you have seen, carbon compounds begin to break down outside of even a small temperature range. Therefore, if such a change were to prevail over the whole world life would disappear. This is one of the most important proofs that a special creation exists in the world. The temperature range that permits organic carbon compounds to form exists only on Earth. And this is a most narrow temperature range. In comparison, the temperature on Venus—the next planet closest to the Sun in the Solar System, is 450ºC (842 ºF). And on Mars, the next planet after Earth, the temperature is –53ºC (–63ºF). In such burning heat and freezing cold, carbon cannot form organic compounds. And in space, stars have temperatures of millions of degrees Centigrade (or Fahrenheit), and the temperature in open space itself is –273.15ºC (–460 ºF), or absolute zero.
Within such a stunning temperature variation, only Earth lies within the temperature range suited to carbon-based life forms—a great blessing and evidence of a special creation. The important thing is to comprehend one's need of Allah and to appreciate His greatness by seeing His matchless artistry. Allah reveals this truth in the Qur'an, in the following terms:
Have you thought about what you cultivate? Is it you who make it germinate or are We the Germinator? If We wished, We could have made it broken stubble. You would then be left devoid of crops, distraught: "We are ruined, in fact we are destitute!" Have you thought about the water that you drink? Is it you who sent it down from the clouds or are We the Sender? If We wished, We could have made it bitter, so will you not give thanks? Have you thought about the fire that you light? Is it you who make the trees that fuel it grow or are We the Grower? (Surat al-Waqi‘a: 63-72)
The Molecules That Build the Cell
A materialist will reply, "The atoms that comprise a human being are better organized. That is the only difference." He will suggest that this organization was carried out by nature itself, during the process he refers to as evolution.
 Your body and the ground you walk on both consist of atoms. This does not mean, however, that the atoms that comprise inanimate substances organize and come to life on their own. Therefore, the origin of living things does not lie in atoms combining together. There is a most sublime intervention, creation and power at the origin of living things—the creation of Almighty Allah. |
1) In terms of properties, there is no difference between the atoms that make up inanimate objects and those that comprise your body or other living things. Therefore, the fact that one set is better organized does not impart to them any new qualities. As an analogy, think of the subatomic particles such as protons, neutrons and electrons as individual stones. You can arrange these stones in different patterns—side by side, top one another, or in a line. You can put them all together or separate them, but whatever organization you impose on them will not impart any new qualities to these stones. Even when you come up with a perfect sequence, these stones will not begin to think, speak, or sing. In the same way, the different organization of atoms and the particles that comprise them will not give them any feature that they did not already possess. It cannot bring them to life. It cannot turn them into thinking, speaking living human beings.
Despite the materialists' claims to the contrary, they can not provide any experimental evidence. In other words, to constitute a basis for their claim, they need to be able to take inanimate matter, organize it, and produce a living entity from it—as they assert took place in the past, when life on Earth first began to appear. In fact, scientists have never managed to do such a thing. And its impossibility is so plain that they have abandoned any attempt to create life from inanimate substances.
In short, the idea that life can emerge through the mere organization of atoms flies in the face of both logic and the scientific facts. All observations and experiments confirm what Allah tells us in the Qur'an:
. . . Those whom you call upon besides Allah are not even able to create a single fly, even if they were to join together to do it. And if a fly steals something from them, they cannot get it back. How feeble are both the seeker and the sought! (Surat al-Hajj: 73)
2) Additionally, no force or mechanism in nature could organize atoms. The process materialists refer to as evolution has never been observed, and not the slightest evidence for it has ever been found. It is simply a myth. No chemical process, nuclear reaction or physical event has been seen to organize atoms into establishing the complex systems present in living things. Certain chemical phenomena that Darwinists misleadingly refer to as "self-organization" (such as crystallization, entropy decrease in open systems, etc.) are in fact merely examples of simple ordering. It is perfectly obvious that these can never account for the origins of the complex systems essential for life. (See Harun Yahya's Darwinism Refuted, Goodword Books, 2002.)These facts lead to a most important conclusion: It's impossible for the atoms that constitute inanimate substances to come to life, either by evolving or through human intervention. The origin of living things cannot, therefore, lie in these atoms combining. There is a sublime intervention, creation and power in the origin of living things.
This is Almighty Allah's creation. Indeed, in the Qur'an, He draws our attention to the fact that He gives life to inanimate things:
. . . He brings forth the living from the dead, and produces the dead out of the living. That is Allah, so how are you perverted? (Surat al-An' am: 95)
Giving life to inanimate matter is a supernatural event—in other words a miracle, and belongs to Allah alone. Another miracle that belongs to Him alone is the way that one of these living things is given a soul with a high level of special consciousness, in contrast to all the others. That human soul is a blessing from Allah. As is revealed in Surat as-Sajda verse 9, Allah first created the human body and then breathed His Own soul into it. Therefore, two separate elements make humans human: their bodies composed of atoms, and the souls breathed into them by Allah. Materialists, who imagine that human beings are merely matter consisting of atoms, are put in a terrible impasse by of this belief to which they adhere so blindly.
Can a Molecule Contain Information?
In every single cell in your body, you have one of these molecules, far more intelligent than you. That molecule is DNA.
 The arms of the DNA ladder consist of sugar and phosphate molecules. Some bases combine with these arms with hydrogen bonds. Thanks to this special creation, DNA is sufficiently flexible to replicate and transmit data. |
The chemical bond formed among these four contraposed nucleotides is a hydrogen bond, and that the DNA molecule consists of hydrogen bonds is particularly significant. As you'll recall, the distinguishing feature of hydrogen bonds is their elasticity. Since these bonds are not as strong as the ester bonds binding the nucleotides together, they can easily break in the presence of pH difference, heat or pressure. The importance of the elasticity in the bonds is this: It is possible for DNA to be copied and for genetic information to be transmitted to other cells only thanks to this property of elasticity.
As you know, DNA needs to replicate itself during cell division, so that each "daughter" cell can possess its own identical data bank. Therefore, immediately before the cell divides, DNA produces a copy of itself, first dividing itself down from the middle, like a zipper. In order to replicate itself, the missing halves of both sections are completed with materials ready in the cellular environment, and thus two new DNA molecules result. Thanks to the elasticity of the hydrogen bonds, DNA can split down the middle during this process. If this DNA helix was attached with a different type of bond, then the "steps" holding the two halves together would be exceedingly hard and inflexible and it would be impossible for DNA to divide in two. Either such a division would not take place at all, or else all the bonds would break when the two parts of the helix exhibited a tendency to separate from one another, and the molecule would break apart. If DNA could not be copied, life would be impossible. .
The hydrogen and other bonds that form DNA make the helix exceedingly regular. For this reason, the DNA molecule makes regular turns without being bound to the chain sequence order. The nucleotides that form DNA, being bound to one another with phosphate bonds, produce a backbone in which sugar and phosphate sections follow one another in a series. These bonds, known as covalent bonds, are extremely strong. These bonds make the DNA molecule highly stable and resistant, even when it has only a single-chain structure. While the hydrogen bonds in the middle are able to split away from one another easily, no breaking occurs in the chains attached to the helix at the side, which are attached with covalent bonds.24 Mutations, which generally have fatal results or else totally destroy the cell's function, arise from the breaking of these ester bonds among the nucleotides. 25 Within the molecule, however, this binding is so strong that such impairment rarely happens. The enzyme molecules inside DNA immediately act to prevent the possibility of such defects arising. Inside such a complex system, the presence of another protective precaution is a separate and utterly amazing fact.
 The DNA molecule contains enough information to fill a million encyclopedia pages. This information "explains" everything to do with you. Everything, from your hair color to your blood group, from your height to your bone structure, has been implanted in this data bank—which in fact is a molecule invisible to the naked eye. |
The information in DNA is recorded in letters, just like in a book. A book in English consists of 26 separate letters laid out side by side to impart information. The letters in DNA, on the other hand, are the four nucleotides that comprise this giant molecule: The Adenine, Thymine, Guanine and Cytosine are referred to as A, T, G and C for short. When hundreds of these four molecules are taken together, what emerges are long, meaningful "sentences" or genes, which describe how processes in the body will be performed, and which encode the needed data for these to occur.
The origin of the data in DNA is another dilemma that materialists cannot resolve. They cannot account for the information encoded in this molecule in terms of any natural mechanism. All observations and experiments show that information derives from a conscious entity. The information in DNA is the work of Almighty Allah, the Creator of all life. Our Lord's creative artistry and infinite might are explained in these terms in verses of the Qur'an:
That is Allah, your Lord. There is no god but Him, the Creator of everything. So worship Him. He is responsible for everything. Eyesight cannot perceive Him but He perceives eyesight. He is the All-Penetrating, the All-Aware. (Surat al-An' am: 102-103)
Other Life-Giving Molecules
The molecule found in the largest quantities in the body is water, at a level of 55 to 60%, followed by organic (carbon-based) molecules at a level of 30 to 35% and inorganic molecules at 5%. Organic molecules mainly consist of lipids—fats and proteins. Fat and water molecules are inversely proportionate to one another. While one of them increases, then the other declines.26 All molecules perform important functions in the body, which they discharge completely, inasmuch as the purpose behind their creation is to serve as vehicles for human life.
Water Comprises More Than Half of Your Body
 Being a special molecule, water can be found in every organelle in the body and serves in a great many ways, from transporting nutrients to forming various structures. The cells are completely compatible with water's physical and chemical properties, so that water can enter the cell without difficulty and be expelled in the same way. |
Water has various distinguishing features; it is found in three different states, and has deliberately determined boiling and freezing points, and is attached by means of hydrogen bonds. Water is a special molecule that is found in every organelle in the body and serves many functions, from transporting nutrients to forming various structures. It can easily enter and be expelled from the body. Inside cells, it constitutes an environment where reactions dealing with enzymes and chemical energy transfers can occur. The cell's structure and functions demonstrate complete compatibility with water's physical and chemical properties. In short, the living body is an ideal environment for water to be present in various forms.
Water accomplishes exceedingly important functions throughout the body mainly through ionization—the process of an electron leaving or joining an atom that comprises the molecule. The water entering the body is separated into hydrogen ions (H+) and hydroxide ions (OH)—a division of vital importance, because the H and OH levels for the cells have been predetermined, and the levels of ions in the blood—expressed as pH values—need to be kept constant.
The body's pH is exceedingly important. In nature, pH value can range from 0 to 14 but in the body, it must remain around the 7.4 level. If this level falls to 6.8 or rises to 8.0, the result is death.27 Renal insufficiency, or kidney failure, is the main reason why someone cannot maintain a normal blood pH level. The surprising and miraculous fact is that only one out of every 10 million water molecules entering the body is ionized.28 If for any reason, not a single water molecule is ionized, death will ensue sooner or later. No matter how much effort may be expanded, no earthly power can reproduce this perfect system. A single ionized water molecule is the perfect level determined for the human body. This delicate creation is one of the proofs of Allah's matchless artistry. In one verse, He reveals:
Everyone on [the face of the Earth] will pass away; but the Face of your Lord will remain, Master of Majesty and Generosity. So which of your Lord's blessings do you both then deny? Everyone in the heavens and earth requests His aid. Every day He is engaged in some affair. So which of your Lord's blessings do you both then deny? (Surat ar-Rahman: 26-30)
Amino Acids and Proteins: The Most Important Building Materials
 All of the 20 amino acids that make up proteins possess a common structure. The only thing that distinguishes any one from the others is its side chains. Due to the different atoms and bonds acquired by side chains, they possess different structures, which permit the 20 different amino acids to give rise to 10130 different proteins with differing sequences. This, of course, is a matchless creation. |
For example, in the manufacture of a single protein, the amino acid called glycin joins the sequence in 20 or 30 places. The sequencing of these amino acids are flawless, since a protein molecule can serve its purpose only so long as it possesses that exact sequence. The slightest error in that sequence will result in a useless assortment of molecules. Yet generally, we never encounter such an eventuality thing. Amino acids always combine in a perfect order to fulfill their functions in forming protein molecules.
The 20 amino acids in protein molecules all share a similar structure. Each amino acid contains a carbon based carboxyl group and an amino group. The only difference between these amino acids, otherwise identical in terms of structure, is their side chains. Because of the different atoms and bonds composing these side chains, the amino acids possess different structures and electrical charges and different levels of solubility in water.
In order to give rise to proteins, amino acids attach to one another by means of what's known as peptide bonds. The arrangement of amino acids, attached by peptide bonds, determines the proteins' three-dimensional structure. Proteins assume different functions according to their structures and use the cell's chemical reactions in various stages. If a cell needs energy, proteins perform different chemical reactions. If the cell requires amino acids, the proteins break down into amino acids. In addition, proteins also act like building bricks in the cell membrane. In short, proteins are used almost everywhere throughout the cell. 30
 In order for a protein to function, its atoms need to be arranged appropriately. This structure formed by the combination of atoms is a three-dimensional one, and only when proteins have a three-dimensional structure do they become able to serve throughout the body. If the atoms comprising a protein were bound to one another in other ways, not only might the molecule disappear, but also the organism might die. That atoms achieve this perfect structure is one of the beauties and blessings of Allah, Who reveals His sublime and immaculate artistry in every detail He creates. The existence of the Earth and the universe—and the way its perfection prevails for the continuation of life, from the smallest subatomic particles to proteins, from the cell to all the systems in the universe—again demonstrates the flawless creation of Allah, our Lord. |
The protein's three-dimensional structure arises from the bonding of the atoms that form this molecule. Biochemistry and biology textbooks discuss in generally technical terms how a regular order emerges in this microworld, and how way that this order endows proteins with important functional characteristics. Yet scientists, realizing that molecules had been bound together this way for billions of years, were amazed by this property that they had discovered only recently, and began to inquire into the source of this perfection.
Were perfection not complete, even a single error could eliminate not only the molecule, but also the entire organization which that molecule supports. The way that unconscious atoms achieve this perfect structure is evidence of the creative artistry of our Lord, Who displays sublime artistry in all that He creates. Everyone who examines the magnificent microworld possessed by a single molecule is amazed by its impeccable artistry. The flawless structure necessary for life to come into being appears before us everywhere, from the smallest subatomic particles to the universe itself. Allah reminds us of His might, greatness, superior creation and lack of any deficiency in all the entities He creates, down to the smallest particle.
He reveals this in these terms in His verses:
He Who created the seven heavens in layers. You will not find any flaw in the creation of the All-Merciful. Look again – do you see any gaps? Then look again and again. Your sight will return to you dazzled and exhausted! (Surat al-Mulk: 3-4)
The Superior Structure of the Protein Molecule
In the second group, known as globular proteins, the amino acid chain bends in an irregular manner and assumes a spherical shape. These proteins are soluble in water, and are not physically resistant. You might consider this to a disadvantage, but in fact this weak structure is of enormous importance for the human body. The cell's globular proteins are able to move. Almost all the 2,000 known enzymes, antibodies, some hormones and hemoglobin all have globular protein structures. Some proteins exhibit both fibrous and globular characteristics: Even if they resemble fibrous proteins in their structure, they have globular proteins' ability to dissolve in saline solutions. The myosin in skeletal muscle and the fibrinogen molecule that permits blood to clot are members of this group. 31
 In globular proteins, the amino acid chain bends irregularly to assume a spherical shape. Almost all the known enzymes, antibodies, some hormones and hemoglobin have a globular protein structure. Globular proteins are soluble in water and not physically resistant. These mobile structures we have listed can only serve a purpose with a protein structure with the features in question. |
The same atoms combining together in different shapes and producing two such different results is a miracle. Unless you have received a sufficient level of training on the subject, you cannot possibly dismantle a television, rearrange the components in a totally different way and come up with a fully functioning set. However, very much more complex processes than that are performed within the body. When the same atoms that make up one protein are bound together differently, they form another functional protein with different properties. No error ever occurs while all this is taking place, and every protein knows the purpose for which it has been manufactured, because each one is the impeccable work of Almighty Allah.
All Supervision of the Body Liies wiith Enzymes
Some proteins have an enzyme structure and regulate metabolism by constantly taking part in chemical reactions inside the cell. There are more than 3,500 enzymes in a human cell.32 In the event that even one or a few these are missing, intracellular activities may become totally jumbled. The result of that would be the fragmentation of the cell—in other words death.Enzymes' most important duty is to assist in copying of the DNA molecule. In addition, these intelligent molecules are constantly at work inside your body to ensure that you can breathe, stand up, eat, see, speak, grow and develop. Large molecules produced according to the genetic codes recorded in DNA by an organelle inside the cell known as the ribosome send the relevant messages to their proper destinations within the body, know which organ has to go into action to achieve a particular process, remove excess substances from inside the cells and constantly travel about in the body to operate. These molecules all serve as highly competent supervisors.
 Many nerve cells end in a spherical mass, a globular region surrounded by sensitive receptors compatible with chemical molecules and known as acetylcholine. When an impulse forms in the nerves, acetylcholine heads directly for this space and transmit the stimulus by attaching to the receptors there. In order for this process not to be carried out constantly, an enzyme known as acetylcholine esterase neutralizes the effect of the acetylcholine in that region. This enzyme is an important component of the nervous system, essential for us to enjoy healthy lives. |
Don't forget that enzymes are minute collections of atoms, too small to be seen with the naked eye. The way that one assemblage of atoms recognizes another collection of atoms and determines its features clearly shows that it is under the control of a separate will. Evolutionists maintain the exact opposite, suggesting that such conscious intent came into being by chance, but when they find themselves faced with the cell's extraordinarily complex structure, they are perfectly well aware that no such system could ever emerge by chance. Yet thanks to their world views and denial of the existence of Allah, they constantly seek to reject this truth. Their illogical aims are aimed at rejecting the absolute existence of Allah. In fact, however, everything created by Allah clearly indicates His existence and greatness.
Professor Cemal Yildirim, one of Turkey's foremost proponents of the theory of evolution, has openly stated the impossibility of life coming into existence spontaneously. He considers the improbability of any enzyme molecule coming into being outside the cell by chance:
"A typical enzyme consists of 100 amino acids. Since there are 20 amino acids, we are talking about 20100 combinations. The odds of a specific enzyme coming into being by chance—in one go, within that many combinations—is 1 in 10130."34
 Enzymes accelerate chemical reactions in the cell. A) Enzymes are globular proteins with hollows in their surfaces. This hollow is of a size to harbor the reaction molecules. B) The molecule to enter the reaction enters the hollow in the enzyme and initiates the reaction. C) In this lock-and-key relationship, the molecules are fixed in their shapes. D) Chemical bonds break depending on the enzyme, and products are set free. The original enzyme is now free to enter into a reaction with new molecules. |
"It is estimated by one evolutionist [Fred Hoyle] that there are 2,000 different complex types of enzymes in a living organism. Not one of them could be formed by random, shuffling processes in even 20 billion years!" 36 Remember that there are more atoms in a single period on this page than there are stars in our galaxy. The number of atoms in the universe is 1080. This is a number far beyond human conception— 80 zeroes coming after 10. Therefore, the 1 in 10130 probability of an enzyme of 100 amino acids coming into being spontaneously is, in practical mathematical terms, zero. In other words, it is not possible. In the face of this, it is also mathematically impossible that a single enzyme, selected from among the millions of special molecules in the body, can have come into existence by chance.
The Cell Membrane Is a Perfect Protective Sheath
The molecular structure of the cell membrane is a chief focus of present-day research by cell biologists and biochemists. This is because the cell membrane is an exceedingly complex organelle with important biological features and a specific, well organized structure, equipped for the protection and nutrition of the cell and all the process it carries out. The cell membrane is equipped with rather important attributes for the protection and nutrition of the cell and all the process it carries out reveal great intelligence. Although many important features have been discovered, all the functions of the cell membrane remain a mystery to this day. The diagrams show cross sections of the cell membranes of three different structures. All the membranes in these structures possess molecules equipped with very special features. The cell membrane possesses molecular priority, thanks to which essential substances such as glucose are admitted into the cell while harmful substances are excluded. Also thanks to this special structure, the needs of the cell are identified. This is just one of the incomparable miracles created by Allah. |
 Thanks to the various pumps and channels in the cell membrane, some molecules can travel with ease between the inside and outside of the cell. All these molecules ensure their passage by going to a channel suited to them. |
Once this molecule has been admitted, the enzymes go back into action to return the gate to its previous state. During this process, no harm befalls the gate, the cell membrane, or the cell. The molecules act together in a division of labor just as if they were communicating. If there were no molecules with such features on the cell membrane, it would definitely mean the end of life. In the absence of these gates, nutrients could not be admitted to nourish the cell and the waste products inside could not be expelled. Could any one of the hundreds of different molecules within the cell assume the responsibilities of these molecules? That is also impossible. Every molecule inside or outside the cell is responsible for discharging its own functions. If molecules are absent from the cell membrane, their functions cannot be performed by any others. They are one of the countless features that we usually are not aware of, which have been specially created to protect the cell—and thus, human life.
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Also on the cell membrane, there are receptor molecules capable of perceiving various kinds of information arriving from outside. These receptors consist of various proteins with a mosaic-like structure, and highly sensitive to hormones and data-bearing molecules inside the body.40 This information, again, is encoded by the shape of the data-bearing molecule. When its shape is compatible with the proteins on the surface of the cell, the two molecules recognize one another, and communications are thus established.
Molecules Coming to Life Confirm Creation
 It is He Who has created hearing, sight and hearts for you. What little thanks you show! (Surat al-Muminun: 78) |
Clearly, in this microscopic world that cannot be seen by the naked eye, a human being's rational, conscious mind can't possibly result from any random combination of atoms and molecules. It would also be illogical to claim that atoms can bond in the necessary manner, determine functions for themselves, order themselves accordingly and manage tasks that even biochemists cannot accomplish. How did inanimate and unconscious atoms come to life and acquire consciousness? This important question places Darwinists and other materialists in a major dilemma that leads them to question their ideologies.
Even if all the scientific experts who ever lived made use of all possible technological means, they could still not produce a living organism simply by bringing atoms together. The sophistication clearly evident at the molecular level presents an impasse for Darwinists. Their statements and publications keep relating scenarios the chance development of life. But in fact, it is meaningless for them to make proposals regarding how life evolved when they cannot scientifically account for its origin. The plain truth is that life is too flawlessly complex to be accounted for in terms of chance phenomena. Allah reveals the position of these people who regard coincidence as a deity and who search for creators other than Him:
Do they make things into partner-gods which cannot create anything and are themselves created;
Which are not capable of helping them and cannot even help themselves? (Surat al-A‘raf: 191-192)
Sugar Molecules: A Common Form Of Carbohydrates
Whenever "sugar" is mentioned, the first thing that springs to mind is the sweet granular substance stirred into tea or used to bake cakes. However, the sugar you use in daily life is just one variety of the very wide range of sugar molecules found in nature and which have a very broad sphere of use. Sugar molecules are a member of the broad group called carbohydrates in the language of chemistry. The sugar molecules we are examining here are all members of the carbohydrate group.Glucose and glycogen—living things' most important sources of energy—the starch that results from photosynthesis in plants, and the cellulose that forms the most cell walls in plants, are all actually carbohydrates. In the matchless structure of cell membranes there are also carbohydrate molecules combining together.
Carbohydrates consist of carbon, hydrogen and oxygen atoms. Hydrogen and oxygen are present in carbohydrate molecules in the same ratios as they are in water.
Glucose: The Body's Basic Foodstuff
This property of glucose is most important, because as the most important source of nourishment for cells, glucose must be soluble in order to be carried by the bloodstream. Glucose can be compared with hexane, which closely resembles its own molecular structure and bears a close resemblance to glucose in many respects, particularly as a fuel. However, hexane does not carry oxygen atom, so when it oxidizes, it gives rise to many new, powerful carbon-oxygen bonds. This prevents hexane from dissolving in water. That is why blood can not carry hexane to the cells. Under normal conditions, glucose is less efficient than hexane, but thanks to being transportable in liquid, it is of vital importance to animals and plants.
 Glucose, the cells' most important nutrient, is carried through the body via blood vessels. Glucose can be transported in this way thanks to its being soluble in water. This once again shows the sublime nature of Allah's creation. |
We take in carbohydrates from 70% of the food we eat. Carbohydrate digestion starts in the mouth, where the enzymes in saliva starts breaking them down. The digestion of these partially broken-down molecules ends in the intestines, and the glucose molecules that emerge as a result cause blood pressure to rise. However, blood pressure is balanced by means of the enzymes that act on the glucose molecules. In short, one molecule crucial for the body is kept in balance by another specially created molecule.
Even if glucose is present in excess quantities in the bloodstream, it is not wasted. By means of an enzyme known as glucokinase, excess glucose molecules are turned into a form known as glycogen and then stored. This enzyme is produced by the liver, and its production is controlled of a hormone known as insulin, secreted by the pancreas.43 The glycogen produced is ever ready for use when the body needs energy.
The body's metabolism operates much like a factory, with various units that engage in production, transport products to specific destinations, check them, identify surpluses and use them for other products. All production must be under strict supervision, so that no errors in production ever occur, and faulty products are broken down and used to form new products. In a factory, it's trained human beings who understand quality control, monitor the manufacturing, and perform all these processes. However, the system we are describing here occurs inside cells, mere microns in size (1 micron equals 1 x 10 -3 millimeters, or 4 x 10 -5 of an inch), inside your own body. Neither the molecules nor the cellular structures that act with them possess intelligence, knowledge, or training. Neither does any amount of time need to pass for all these processes. These perfect systems got underway in the exact way they do now, at the moment you were born. For thousands of years, before science was even aware of it, this perfect division of labor has been flawlessly implemented. Every molecule has discharged its responsibilities in every human who has ever lived. Moreover, this systematic division of labor and extraordinary organization operate in your body at every moment, without your awareness. Since molecules cannot possess intellect or consciousness, we once again witness a superior creation designed in a most conscious, flawless manner.
 We take in carbohydrate from 70% of the food we eat. Partly digested carbohydrates in the mouth are sent to the intestines to be fully broken down. The glucose molecules that emerge as a result are kept in balance by means of enzymes. This glucose molecule, so vital to the body, is maintained in equilibrium with a specially created system. |
It is Allah Who created the seven heavens and of the Earth the same number. The Command descending down through all of them, so that you might know that Allah has power over all things and that Allah encompasses all things in His knowledge. (Surat at-Talaq: 12)
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The Atoms Comprising Glucose Are Sometimes Bonded in Different Ways
Glucose may take the form of different sugar molecules by bonding differently. One of these is fructose, the fruit sugar widely found in fruit and vegetables, and the molecule that gives fruit its sweet taste. Fructose is also the main sugar substance in honey, because the flowers from which bees gather nectar are all sources of fructose. This molecule also has another important property: It's the sugar that gives sperm cells the energy to move along their long and miraculous journey. 45
Another sugar molecule—sucrose, emerges when glucose and fructose combine together. Sucrose is the powdered sugar you use in daily life, and is particularly found in sugar cane and sugar beets. Sucrose also constitutes the structural element in starch and cellulose, found also in all plants. That Sucrose, an important product of photosynthesis, appears as a compound in leaves and is transmitted to all other regions of the plant. Due to its own molecular properties, sucrose is transmitted to the furthest roots and leaves without undergoing any structural changes.46Nourishment can thus easily reach any point in the plant.Keratin: An Intelligent Molecule in Our Bodies
The 20 amino acids are attached to one another by peptide bonds, and these bonds constitute the polypeptide chain. This bonding comes about in the living cell not through random inanimate coincidences, but by means of intervention via special enzymes and organelles. Keratin is a long amino acid chain, in other words protein. The polypeptide chains that constitute keratin are bound to one another by sulfur bridge. Sulfur bridges are found among amino acids containing sulfur atoms and these bonds take the form of tiny threads, which subsequently grow in size and give rise to the cell. |
Hair is flexible, because of the hydrogen bonds that give rise to keratin. Due to its elastic hydrogen bonds, hair bends and is not easily broken. But imagine the opposite! If keratin employed a different chemical bond, your hair would be very brittle and hard as wood. Thanks to hydrogen bonds, such is never the case.
The bonds that give rise to hair molecules have another important feature. As hairs stretch, the sulfur bridges that keep the molecules together come to no harm. That is why however hair is combed or arranged, it can easily reassume its former shape.47
Lightening or bleaching the color of hair generally takes place by impairing the compounds that give hair its color, usually by solutions like hydrogen peroxide that permit the oxidization of the molecules. When hydrogen peroxide bleaches hair, a large number of sulfur bridges form, which is why the hair becomes more brittle and loses its elasticity.
 (below) Image of hair molecule seen under a microscope |
The keratin molecule appears in many forms in objects you use in daily life. Leather consists almost entirely of keratin molecules. Wool, silk, fish scale, fur and feathers also consist of keratin, as do claws and nails. Yet these structures are composed mainly of diagonal bonds with sulfur bridges. This diagonal bonding shows that keratin has been more wrought. The molecule that emerges is stronger and harder, which is why claws and nails are so hard. Unlike the keratin in other structures, the keratin molecules that constitute silk—the solidified form of a liquid secreted by many insects and spiders—are not in a spiral form. Instead, they form hard amino acid plaques piled atop one another. You can feel this flat, layered structure when you touch a piece of silk. Silk stretches less than wool does because the polypeptide chain forming it is already extended to almost its full extent. But it is still flexible because the plaques are bound to each other by hydrogen bonds. Because of these loose hydrogen bonds, the plaques can easily slide over one another.48
 Keratin is the substance that protects the skin and constitutes the basis of the skin's porous structure. At the same time, it protects against external agents. Keratin is just one of the countless blessings created to discharge their responsibilities in nature. |
What's noteworthy is that in all these substances, keratin serves as a protector. With its unique molecular structure, keratin protects the skin against external factors, and determines its structure in a particular manner. With its unique molecular structure keratin makes skin protected against external factors, and determines its structure in a particular manner. To give an example, the porous nature of skin is of vital importance to human beings' survival For example, were it not for this porous structure of the skin, it would be impossible for excess heat and water to leave the body, and a person would develop a fever and die. Keratin represents the basis of this porous structure. At the same time, it is thanks to keratin that the skin, in constant contact with the external environment is able to withstand various microorganisms. Similarly, the protection of the hair and nails depends on the functions of this special molecule. Although there are countless molecules in nature, there is no other molecule that can replace keratin, just one of the countless blessings created to perform their own special tasks.
Cellulose: The Plant Kingdom's Most Important Architect
Starch has a similar molecular structure to that of glucose. This molecule, found in large quantities in cereals and potatoes is food storage of developing plant embryo. Seeds therefore contain high levels of starch.
Starch is a fuel for metabolism; cellulose is a special structural material for plants. The two molecules are identical; the only difference between the two is the difference in their molecular bonds. Cellulose molecules have long, straight, ribbon-like chains supported by hydrogen bonds among them. These flat ribbons are packaged together and the bonds between them fixed to form a hard solid mass. It is the curves in these bonds that cause starch and cellulose molecules, which are structurally the same, to exhibit completely different characteristics.49 The coming together of unconscious atoms with a flawless design once again shows the superiority of the creation in the world. The special links between atoms offering a difference sufficiently wide as to give rise to two basic materials shows a delicate balance that cannot be accounted for in terms of chance. Allah has created this special structure, as He has all things in the universe.
The properties of cellulose go further, however. Cellulose, the main structural material of the plant cell wall, is a hard substance, insoluble in water and is found particularly in the protective cell walls of plants and all the woody tissues of trees. is. Some plants inhabit possibly harmful environments. They are sometimes immersed in salt water or snow melt or lake waters where mineral levels are increased. To protect themselves from these harsh environments, they need a very sound cell wall. For that reason, there are packaged cellulose groups in all plant cells.50 Despite being a polysaccharide, a sugar molecule like starch, cellulose cannot be digested by human beings. That is because the glucose units in cellulose are attached to one another with glycoside bonds. Mammals' digestive tracts have no enzyme able to break down this bond. That's why that cellulose is not a source of food for us. Cellulose can, however, be digested by ruminants, because in their digestive tracts, these animals host microorganisms that secrete cellulose enzymes. Thanks to these enzymes, ruminants can break down the cellulose they eat without difficulty and turn it into a form of food and energy. 51
Termites also use cellulose for foodstuff, because in their digestive tracts a microorganism called trichonympha secretes an enzyme that breaks down cellulose. That is why termites generally prefer woody structures and use them as foodstuffs while burrowing into them.52
No doubt that it would not be difficult for the tiny termite to find appropriate food. The reason it prefers a foodstuff incompatible with its metabolism is most important evidence for those eager to see the miracles created by Allah. This insect, less than 1 centimeter (0.04 of an inch) long, needs a microorganism in order to secure nourishment, which microorganism assumes its place in the termite's intestines as if instructed to do so. These microorganisms are ready to ensure digestion in all termites, and all termites make use of cellulose. As in all things, the law of Allah operates in the termite's obtaining its daily food. In this minute creature, Allah shows a flawless miracle of creation as a deterrent and a lesson. As He has revealed this in the Qur'an:
How many creatures do not carry their provision with them! Allah provides for them and He will for you. He is the All-Hearing, the All-Knowing. (Surat al-‘Ankabut: 60)
These mutually dependent systems in living things did not come into existence by chance. If a single random event were to take place, the entire order would become chaotic and the system will become non-functioning. For example, if once deprived of cellulose's protective effects, plant cells will be unable to withstand their external environment and will soon die. Alternatively, if cellulose lacked its special, folded molecular structure, then it would be an ordinary molecule easily soluble in water. These, of course, are only a few possibilities, since a single chance event in the formation of a molecule will inevitably change that molecule's properties. When coincidences enter the equation, it is difficult to speak of the possibility of a series of planned and conscious events taking place. In fact, however, atoms do combine in an exceedingly conscious and planned manner, according to duties specially given to them. This sublime planning and consciousness could never emerge accidentally, even if all possibilities were mobilized. All this is clear proof that Allah has created life. Refusing to accept this truth is a major loss for no one besides the individual concerned. Even if someone denies it, that does not alter the fact that Allah has created all things. In one verse, He imparts the tidings that even if people harbor their doubts, He pervades all things: What! Are they in doubt about the meeting with their Lord? What! Does He not encompass all things? (Surah Fussilat: 54)
Adhesive Molecules
 (Left side) Adhesive material seen under the microscope When a glass is broken, the adhesive between the parts allows a bond to form between the main body and the broken piece. The two parts' sticking together is nothing but an increase in the molecular attraction between the two. |
Generally, it shouldn't. You can never repair fragments merely by holding them together, because the distance between the separated molecules must not exceed a few angstroms. Only then can Van der Waals force have any effect. One angstrom is just 4 x 10-9 inch, and even on surfaces that you may assume to be very smooth, there are actually peaks measuring up to 400 angstroms (1.6 x 10-6 of an inch) high. Therefore, even if surfaces fit together perfectly, it will be impossible to secure a sufficient proximity among their molecules.
The secret of glue is that its adhesive molecules form a bond between the molecules on two surfaces and thus helps bind them together. Particularly in a liquid state, glue provides the necessary closeness for Van der Waals force to emerge. The force that emerges when this closeness is great by itself and the solidified glue prevents nobody the broken fragments from parting again.
How You Taste Molecules
The region at the front of the tongue that serves to perceive sweetness is composed of glucophores.46 There is protein in the glucophore structure. When any taste molecule from the outside reaches this region, it establishes a hydrogen bond with that protein molecule and sends a signal to the brain. In this way, you establish that what you are eating tastes sweet and is—in our example—an apple.
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The way that receptors on the tongue possess special gaps pre-determined for them is a great creation. The property of the molecules that make sweets taste sweet, or bitter things taste bitter, has been specially set out, and the tongue's regions have been so created as to bond to these molecules. Planning and intelligence are necessary for all these things to have taken place.
It is surely no coincidence that a mechanism in the tongue should be able to perceive the flavors in foods. It is a great blessing created by Allah for human beings. The forms of molecules invisible to the naked eye give rise to different sensations and different tastes, and the tongue has been designed in line with them—clear evidence of Allah's superior creation. It is impossible for the tongue to have developed independently of the taste molecules outside in the environment. This linked creation clearly demonstrates that taste molecules and the tongue are not independent of each another, and that both are the work of the same Creator.
This represents another major impasse for the theory of evolution. There is no logical justification for structures so mutually compatible, in such great harmony with each other, to come into being by chance.
As you have seen, everything around us, including every atom in our own bodies, shows us the existence, infinite might and omniscience of Allah.
Based on this "jigsaw puzzle rule," various artificial sweeteners have been developed that are as compatible as taste molecules to the gaps in the tongue. The tongue's sweet-perception region is specially developed in order to bond with compatible molecules, so that a sensation of sweetness forms in the brain. This enables sweeteners to be made with low-calorie contents and which do not exhibit the properties of sugar.55 This emphasizes the fact that whatever taste we receive is merely a perception. That the brain perceives the substance as sweet even though it contains no sugar is clear evidence of a sensory system inside the brain, independent of outside matter. There is in fact no sugar in sweeteners, but we imagine that there is. That being so, how can we ever be sure whether sugar actually exists? Since we ever have direct dealings with our perceptions only, we can never be certain.
Beyond all these molecules, shapes and chemical bonds, what perceptions reach the brain are merely electrical signals. The brain perceives certain signals as sweet, but the criteria by which it distinguishes this signal is unclear. Electrical signals from the tongue progress reach the brain along nerves consisting of fat, water and protein, as is true of all our senses. Therefore, is a banana or a piece of chocolate really sweet? Can you be sure? You cannot be certain. Everything in the outside world reaches our brains in the form of electrical signals, so we can never have direct contact with the originals existing "out" in that world. Therefore, the candy you eat tastes sweet because your brain perceives the electrical signals reaching it as sweet. Yet in fact, you have absolutely no evidence whether it really is.
We Smell Molecules
When you smell a rose, similarly, what reaches you are actually scent molecules belonging to that flower. The scent-perception system in the nose resembles that in the tongue. Molecules settle into gaps specially set out for them, establish chemical bonds with the proteins there, and signals are forwarded to the brain to give rise to the perception of smell. Any blessing you have is from Allah. Then when harm touches you, it is to Him you cry for help. (Surat an-Nahl: 53) |
In order for a scent to be perceived, its molecules must be both airborne—in order to reach the nasal epithelium—and soluble in water. Being soluble, they can dissolve in the mucus released by cells in the nasal epithelium. If the molecule does not dissolve in the mucus, however, then organic molecules in the mucus flush the insoluble molecules to other specially charged regions, where the molecules may combine with a relevant protein.57 In this way, perception of the same scent arises. This special precaution takes into account the possibility that scent molecules may not be water-soluble. Either way, the brain perceives the arriving scent molecules.
Smells differ from one another according to the protein structures to which these scent molecules bond. When you smell a rose, you are unaware that molecules and proteins in your nose are compatible with one another and are engaged in chemical activity. Yet the scent that reaches you from the rose always forms bonds with the same type of proteins, which is why you immediately recognize a rose's smell, even if you cannot see or touch it. Scents from a rose never bond to a different protein in your nose to awaken the memory of a strawberry. You can never make such an error, because this molecular structure operates flawlessly. Thanks to the impeccable system here, you can detect not just the difference between two smells, but to distinguish between the countless scent molecules on Earth, whether they are familiar to you or not.
The Molecules That Let You See
Many natural colors form thanks to special molecules that give rise to them. Trees in the street and the flowers in gardens owe their colors to these molecules. These molecules are also responsible for the color of your skin, hair and eyes.
Before we examine the molecules that give rise to—and respond to—colors, recall the kind of activity involved in seeing. The retina contains two types of receptor cell: rods and cones. The 1 billion or so rod cells perceive darker shades of light, but do not distinguish colors. The 3 billion or more cone cells perceive bright light and do distinguish colors. Every receptor cell contains light-sensitive molecules, and their reactions to light determine the message sent to the brain.
 The retinal molecule that permits the vision process is a hydrocarbon group, bonded in a special way. The bond is inflexible, and the electrons in the chain are loosely attached to one another. Able to move with ease, these electrons can absorb energy from the light falling onto the molecule. |
Thanks to this property, a retinal molecule can perceive all forms of light falling on it. This system permits us to see all the details around us. Allah has made the miraculous system in our eyes depend on electrons that are able to easily store energy in order to be able to move. These complex systems came into being merely through Allah telling them to "Be!" As He has revealed this in the Qur'an:
It is He Who created the heavens and the Earth with Truth. The day He says "Be!" it is. His speech is Truth. The Kingdom will be His on the Day the Trumpet is blown, the Knower of the Unseen and the Visible. He is the All-Wise, the All-Aware. (Surat al-An‘am: 73)
MOLECULES ARE THE SOURCE OF COLORS
The Chlorophyll Molecule: The Most Important Element of the Chain of Life
Photosynthesis is a chemical process carried out by green plants and certain single-celled organisms that use sunbeams as a source of energy, combine carbon dioxide and hydrogen, and thus produce foodstuffs and as a byproduct, free oxygen. The end result of photosynthesis performed by these organisms is that we can absorb that stored solar energy into our bodies. In the absence of a process like photosynthesis, life would be impossible. The only reason that certain organisms can carry out photosynthesis is that they possess a chlorophyll molecule. With it, any living thing will need nothing more than its own resources to obtain food and survive. It can take energy to create food directly from the Sun. However, the existence of that chlorophyll molecule and the performance of these processes are not easy. Despite our knowledge of the chlorophyll molecule's structure and our 21st-century technology, photosynthesis has still not been replicated artificially. In order for this molecule to be able to operate in a plant and fulfill its duty, hundreds of enzymes must come into play.
The processes carried out during photosynthesis are exceedingly complicated. As chlorophyll converts light from the Sun into chemical energy, a process known as the electron transfer system begins. Water molecules are broken down, and hydrogen and oxygen atoms will be released. That's how plants establish the oxygen balance in the world. If this molecule and the enzymes that set it in motion did not exist, then there would not be a single trace of life on Earth.
The structure containing chlorophyll molecules is the chloroplast, in which there are small, round structures known as grana. Chlorophyll molecules are present inside the grana, and some of the stages of photosynthesis take place in this region. When exposed to sunlight, the chloroplast becomes active and constantly moves through the leaf cell, to be able to obtain maximum productivity from sunlight. The pigment in the chloroplast is green, which is why living things capable of photosynthesis are green. The color green is able to absorb both violet and red light, since the wavelengths that comprise these colors are the source of energy for the photosynthesis process.
The scope of the process these tiny molecules perform is exceedingly large. Plants use an estimated 280 billion tons of water and 680 billion tons of CO2. The amount of oxygen they release into the atmosphere is 500 billion tons.59 These figures underscore the importance of this process carried out by this miraculous molecule, installed with a flawless arrangement, in every green plant in the world. Hundreds of enzymes have been given duties so that these molecules can go into action. Photosynthesis is a proof of creation that is sufficient to stymie evolutionists, who seek to account for the origin of living things in terms of chance.
The Carotene Molecule: Another Source of Energy
 As well as giving your skin its color, melanin also protects you against ultraviolet rays and visible light. If this special protection that Allah has created is missing, skin cancer can soon result. |
That is why leaves turn yellow in autumn and there is such an impressive change in trees' colors.
No other molecule in the world possesses the same features as carotene and chlorophyll, which give life to Earth and provide such beautiful seasonal variety. No similar molecules are available, not even by artificial means. Like everything else in the universe, these are blessings from Allah. Contrary to what evolutionists would have you believe, it is impossible for random coincidences to give rise to anything resembling these tiny molecules. Man is absolutely dependent on Allah for all he does. To understand this, all you need is to realize that the absence of a single molecule might lead to the end of human life on Earth. Nearly every one of the molecules cited in this website is a clear example of this.
Melanin: Another Color-Producing Molecule
Melanin is also a component of the chameleon's color-changing mechanism: The molecule is carried by channels inside the skin, where it covers up brighter pigments in the lower layers. Animals like the octopus, which can swiftly darken its colors, also make use of this molecule, and in the same manner. Color changes take place in their bodies thanks to the spreading of melanin granules. When the melanin granules cluster together once more, the color of the skin lightens.
When fruit goes rotten, melanin of different kinds also forms. The decaying fruit's cell walls become damaged, and these membranes cause an enzyme called phenoloxidase to go into action within the cell. This enzyme is not found in lemons, melons or tomatoes. However, the browning that accompanies decay in fruit such as peaches is the result of melanin molecules. Melanin is also the molecule responsible for the dark color of tea.61 Do not assume, on the basis of the information provided above, that the melanin molecule alone is responsible for producing colors. It not only imparts color, but also protects against ultraviolet rays and visible light. It Thanks to melanin, your skin is protected against harmful and solar rays. Were it not for this pigment, your skin would soon redden and blister from the ultraviolet rays and cause permanent damage. Indeed, certain diseases resulting from lack of the melanin—such as albinism—cause the skin, hair, eyelashes and eyebrows to lose their pigmentation. The skin becomes exceptionally sensitive to ultraviolet light. Deprived of the special protective effects of melanin, sufferers may soon develop skin cancer.
Melanin's protection also continues in the eye, one of our most sensitive and valuable organs. Melanin is the source of color in the iris, and thanks to its light-absorbent qualities, it protects the lens against ultraviolet rays and reduces the risk of cataracts. Under normal conditions, the eye would be the organ most damaged by ultraviolet rays. But thanks to the presence of melanin, we are never exposed to such a risk. Melanin provides extra protection by filtering different colors incompatible with the retinal receptors and which might damage the retina. In this way, you sight is never affected by the light outside, and is never harmed. Melanin raises the quality of your vision by reducing the admission of blue light and dazzling rays. However, since blue light is not eliminated entirely, the color balance is maintained.62 In conclusion, many factors affecting vision, from the protection of the eye to color quality, depend on the activities of the melanin molecule. The way that this molecule seemingly knows just how to protect the eye and the skin is the work of Allah's immaculate creation. Above all else, the molecule must first know that the eye is an organ used for perceiving light and must estimate the retina's sensitivity to. Then it must become aware of its own protective nature and locate itself where it may protect this sensitive organ. Of course, this all requires consciousness. People who understand the Source of this consciousness will realize that nothing exists of its own accord. Melanin's being present at the right location in the eye and at just the proper quantity definitely shows the existence of a purposeful creation. Everything that has been created is too flawless to leave room for the slightest doubt. It is easy to see this immaculate creation at every point of the universe. Yet it takes reason to understand this and direct thankful appreciation to the Lord. Believers who view the magnificent creation around them and give thanks to Allah are described in these terms in the Qur'an:
In the creation of the heavens and the Earth, and the alternation of night and day, there are Signs for people with intelligence: Those who remember Allah, standing, sitting and lying on their sides, and reflect on the creation of the heavens and the Earth: "Our Lord, You have not created this for nothing. Glory be to You! So safeguard us from the punishment of the Fire." (Surah Al ‘Imran: 190-191)
We have introduced all these color-generating molecules and their properties to show that the lively colors you see around you at every moment are nothing but the movement of electrons. Pigments' colors form as a result of the bonding of several of nature's 109 atoms in different ways, and thus come to constitute pigments that absorb and reflect discrete wavelengths of light. To establish this variety, Allah has made not just the atoms responsible, but also the various ways in which they are assembled and attached.Everything that exists is composed of the same identical particles—protons, neutrons, and electrons. Yet the world that emerges as a result is truly dazzling, a work of art brought about by the will of Allah. Everything that is miraculous and matchless displays the power of our Almighty Lord, Who doubtless has the power to create similar and even greater things than these.
Evolutionists seek to account for His magnificent creation in terms of chance, and so fall into the error of denying His existence. In fact, however, Allah's presence is everywhere. Everything, from the tiniest speck of dust, is a part of His artistry in all its detail. Molecules included everything from the smallest to the largest in the heavens and Earth, constantly and clearly declares the greatness of our Lord, Who sets out the truth of this in His verses:
He is Allah—there is no god but Him. He is the Knower of the Unseen and the Visible. He is the All-Merciful, the Most Merciful. He is Allah—there is no god but Him. He is the King, the Most Pure, the Perfect Peace, the Trustworthy, the Safeguarder, the Almighty, the Compeller, the Supremely Great. Glory be to Allah above all they associate with Him. He is Allah—the Creator, the Maker, the Giver of Form. To Him belong the Most Beautiful Names. Everything in the heavens and Earth glorifies Him. He is the Almighty, the All-Wise. (Surat al-Hashr: 22-24)
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