Table of contents
The First Day of Creation
And God said, let there be light: and there was light... And God called the light day, and the darkness he called night. And the evening and the morning were the first day. This was the first "day" of the world. The first act of the formative creation of God was the creation of light.
"And God said, let there be light: and there was light. And God saw the light that it was good: and God divided the light from the darkness... "(Gen. 1:3-5).
It may seem strange that light could appear and that day and night could follow one another from the first day of creation when the sun and other heavenly luminaries did not yet exist. This gave an excuse for the atheists of the eighteenth century (Voltaire, the encyclopedists and others) to mock the Holy Bible. These poor men did not suspect that their ignorant mockery would turn back against them.
Light, by its nature, is entirely independent of the sun (fire, electricity). Light, but not all of it, was concentrated in the heavenly luminaries only later, at the will of God.
Light is the result of the action of light waves, which is now produced primarily by the sun, but which can also be produced by other sources. If the primeval light could appear before the sun and could have been like, for example, the light of the northern lights, the result of the union of two opposing electric currents, then it is obvious that it (the northern light type of light) could have times when it began, then came to its greatest brilliance and then again began to lessen and then almost completely cease. In this manner, according to the Biblical expression, there could be days and nights before the sun appeared, and there could be evening and morning, which would serve specifically as a measure for the determining of these parts of time.
Some commentators point out that the ancient Hebrew words erev and boker — evening and morning — also mean "mixture" (confusion) and "order." St. John Chrysostom says, "(Moses) clearly called the end of the day and end of the night one day, in order to set forth a certain order and sequence in the visible (world), and so there would be no confusion."
One should always bear in mind that science has no limit to its knowledge. The more science learns, the more areas that are unknown open up before it. Therefore, science can never give its "final word." This has been proven many times already and is being proven even more so at the present time.
Until the beginning of this century, scientists in general and astronomers in particular believed in infiniteness of the universe in time and space. They admitted that some parts of the universe could change (e.g. development of stellar systems), but considered the elementary particles, which constitute matter, and the laws of physics as eternal.
This naive conception about the steady-state ‘eternity’ of the universe was rejected in the first half of the 20th century. In 1913 astronomer V.I. Slipher, in performing spectral observation of galaxies through a powerful telescope, found that all galaxies, irrespective of the direction of observation, moved away from our solar system at high speed. He also noted that this speed was proportional to the distance. In a word, Slipher found that our universe expands, or inflates as a giant balloon. We need to mention here, that galaxies are defined as multi-billion-star systems, revolving around galaxy centers by the effect of the binding gravitational field. For example, our solar system is located at the edge of a medium-size galaxy called the Milky Way. Closest to us is a galaxy called Andromeda at a distance of more than 2 million light years. The entire universe consists of billions of galaxies of various sizes and shapes.
Slipher’s discovery of expanding universe shook the world of scientists. The staggering consequences of this discovery for the traditional science became obvious to everyone. If the world is expanding, then at some moment in the past it was condensed in one point, and therefore it is not eternal and not infinite. What force set this point to motion that transformed it into this colossal universe? Many observatories around the world immediately repeated spectral observations of distant galaxies. Slipher’s conclusion was confirmed: the universe is expanding at an incredible speed. The furthest spots of the universe fly away from us at about the speed of light. Finally, it was calculated that our universe came into existence approximately 15 billion years ago, when a microscopic point blew out forcefully, emitting radiation in all directions. The opinion of modern scientists is that neither matter, nor time, nor space existed before this explosion. While cooling down, the primary radiation began to concentrate into atoms; the powers of nature, which subsequently became the laws of physics, appeared at the same time. Later atoms started to cluster into gas clouds; the gas clouds condensed into stars and stellar systems. This is the origin of the universe in a couple of words. The term for it is ‘the Big Bang.’ Is not this ‘bang’ described in the Bible when it tells us: "And God said, Let there be light: and there was light" (Genesis 1:3).
Now it would be interesting to mention the sharp scientific disputes ignited by Slipher’s discovery. Many scientists tried to save the former theory of stability of the universe so earnestly as if they were defending an unchangeable dogma. This dispute exposed the inherent human prejudice and non-objectivity, which scientists have not less than religious fanatics. There were attempts to refute the arguments of Slipher and his adherents. But it was hard to cope with facts, because facts are stubborn. Even Einstein, a prominent scientists and founder of contemporary physics, who openly admitted the existence of God, disagreed with this new discovery about the origin of the universe for 17 years. Once he even said, "It (the expansion of the universe) irritates me... It seems senseless to accept this possibility." Note the emotionalism of these words, so unsuitable for a scientific discussion! Later, mathematician A. Friedman and scientist G. Lemetres proved it to him that the solution concerning the expansion of the universe was contained in his own formulae of the general theory of relativity. Einstein finally agreed with the fact of the expanding universe in 1930 when he personally visited the best-of-its-time observatory on Mount Wilson in California.
Scientist E. Hubble (1889-1953) later worked much in the area of measurement of galactic motion. His efforts helped to confirm and clarify the previous conclusions. Today no one disputes the fact that the universe is expanding.
Now we will discuss the method of measurement of distant luminaries. Measurement of the speed of motion is based on the principle of spectral comparison. It is known that many elements in incandescent state emit light of a certain spectral type (specific alternations of color and black lines). From an analysis of light, emitted by stars, it is possible to determine the chemical composition of these stars. When stars move toward us, then the spectral property of their emitted light shifts to the ultra-violet color, while the shift of spectral emission toward the infrared color (red shift) occurs when light bodies move away. A similar change of sound frequency can be noticed when we hear a vehicle which comes nearer and then pulls away from us: first we hear a higher, and then a lower frequency of sound. Through spectral measurements of typical stellar light emissions (e.g. sodium and hydrogen), scientists determine their speed in relation to us. It turns up that the light that comes to us from distant light systems is always characterized by red-shifted spectrum.
The theory of sudden origination of the universe out of an immensely powerful superhigh-temperature bang also found its confirmation in the following fact. In 1948 Russian scientist and US resident G. Gamov calculated that if the universe had started to exist due to an explosion, then cooled traces of this bang had to be traceable until this time as weak electromagnetic radiation, corresponding to the temperature of 3 degrees above the absolute zero. He predicted that this radiation had to be reaching us in perfectly uniform amounts from every direction. Indeed, in 1965 scientists A. Penzias and R. Wilson found the existence of background radiation, fully in concord with Gamov’s assumption. This radiation is emitted by interstellar space irrespectively of luminous celestial bodies. It is an ancient footprint of that powerful bang.
For us the believers these scientific discoveries have a great religious and philosophic meaning. First, they confirm our faith that the universe was created in time and out of nothing. They strengthen our belief that only God is omnipotent, eternal and infinite. Anything else around us is limited both in time and in space. Everything started to be due to the Creator’s Will, and the same Will may cause everything to return to non-existence where it originated from.
Second, we see that science in its long and windy way does slowly but steadily come nearer to the truth. Therefore, a believer should not keep away from science as from a hostile enemy. Its positive achievements may enrich the religious understanding. For example, materialists at the beginning of the 20th century wanted to crush religion with the help of science. But new scientific discoveries broke the very platform that the materialists rested on. It was found that matter does not exist as an independent solid substance. It is only a temporary condensed state of energy, of this mysterious force, originated somewhere beyond the boundaries of the physical universe. Bearing the former errors in mind, modern science should become more modest in its fundamental statements. May the minor human mind bow to the incomprehensible wisdom of the Maker!
The discovery by science of the composition of the atom becomes a discovery of the perfection in the creation of the world of a wise Creator. In addition, it completely changes our concept of matter. Such matter as the materialists understand it does not exist.
Contemporary science has determined that the prime basis of matter is energy, and the prime basis of energy is the energy of light. Now it becomes clear why at the beginning of the formation of matter, God created light.
In this way, the first lines of the Bible, for our generation, become the best testimony of the divine inspiration of the Holy Bible. How else could Moses have known that the creation of the world had to begin with light, when this has become the attainment of science only in modern times?
Thus the author of Genesis, Moses, by divine inspiration, discovered the mystery of the composition of matter which was unknown to anyone in those distant times. The discovery of atomic energy, "the life of the atom," in our days is merely a new proof of divine truth!
"Wondrous are Thy works O Lord, in wisdom hast Thou made them all."