Table of Contents

Evolution Encyclopedia Vol. 1
http://evolutionfacts.com/

Origin and Evolution of the Universe

Chapter 1
THE ORIGIN OF MATTER Part 1

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"The Big Bang is pure presumption. There are no physical principles from which it can be deduced that all of the matter in the universe would ever gather together in one location, or from which it can be deduced that an explosion would occur if the theoretical aggregation did take place.

"Theorists have great difficulty in constructing any self-consistent account of the conditions existing at the time of the hypothetical Big Bang. Attempts at mathematical treatment usually lead to concentration of the entire mass of the universe at a point.

"`The central thesis of Big Bang cosmology,' says Joseph Silk, `is that about 20 billion years ago, any two points in the observable universe were arbitrarily close together. The density of matter at this moment was infinite.'

"This concept of infinite density is not scientific. It is an idea from the realm of the supernatural, as most scientists realize when they meet infinities in other physical contexts. Richard Feynman puts it in this manner:

"`If we get infinity [when we calculate] how can we ever say that this agrees with nature?' This point alone is enough to invalidate the Big Bang theory in all its various forms. " *Dewey B. Larson, The Universe of Motion (1984), p. 415.

"In fact, evolution became in a sense a scientific religion; almost all scientists have accepted it and many are prepared to `bend' their observations to fit in with it. "—* H. Lipson, "A Physicist Looks at Evolution," Physics Bulletin 31 (1980), p. 138.

Look about you; there are clouds, seas, and mountains. Grass carpets the plains and birds sing in the trees. Farm animals graze in the meadows, and water brooks run through the fields. In city and country, people use their astounding minds to plan and produce marvelous things. At night the stars come out, and overhead are billions of stars in our galaxy. Beyond them are 100 billion island universes, each with 100 billion stars.

Yet all of these things are made of matter and energy. Where did it all come from? How did everything begin—all the wonderful things of life and nature?

Evolutionary scientists tell us that it all came from nothing. Yes, nothing.

That is what is being taught to your friends, children, and loved ones. You should know the facts in the case.

In this chapter we shall briefly view what evolutionary scientists teach about the origin of matter and energy. Then we shall learn seventy reasons why that theory is untrue.

In later chapters we shall discover scientific reasons why other claims of evolution are also incorrect.

CHAPTER 1, ORIGIN OF MATTER

Quick Index to this Chapter

Big Bang theory

1 — Origin and description of Big Bang theory
2 — Forty Five problems with Big Bang theory
3 — Background radiation theory
4 — Redshift theory
5 — Arp discoveries
6 — Expanding universe theory
7 — Quasars
8 — Steady state universe theory
9 — Oscillating universe theory
10 — Inflationary universe theory
11 — Conclusion
12 — Appendices
13 Scientists oppose Big Bang theory
14 — Entropy problem
15 — The Mysterious Elements
16 INTERGALACTIC SPACE VOYAGES

Related studies:

Chapter 21 Origin of the Stars
Chapter 3 , Origin of the Solar System
Chapter 4, Matter and Stars

1 - THE BIG BANG THEORY

The Big Bang theory has been accepted by a majority of scientists today. It theorizes that a large quantity of nothing decided to pack tightly together, and then exploded outward into hydrogen and helium. This gas is said to have flowed outward through frictionless space to eventually form stars, galaxies, planets, and moons. It all sounds so simple, just as you would find in a science fiction novel. And that is all it is.

Here are a number of reasons why the Big Bang theory not only is obviously incorrect, but totally impossible. It stands In clear violation of physical laws, celestial mechanics, and common sense:

FROM NOTHING TO EVERYTHING —By far the majority of evolutionary scientists say that matter and energy began with a Big Bang.

We are told that back in the beginning, there was nothing; absolutely nothing anywhere in the entire universe.

Then the nothing exploded! That is how evolutionists say everything began . When all this emptiness exploded, it traveled outward and condensed into hydrogen and helium . A total vacuum, they tell us, had become something! Additional explosions are said to have later invented all the 92 natural elements.

SCIENCE FICTION —*George Lemaitre, a Belgium Jesuit, struck on the basic idea in 1927, and *George Gamow, *R.A. Alpher, and *R. Herman devised the basic Big Bang model in 1948-1949. But it was *Gamow, a well-known Reasearch scientist and science fiction writer, that gave it its present name and popularized it after that. Gamow dubbed it the "Big Bang." Campaigning for the idea enthusiastically, he was able to convince many other scientists. Because Gamow was also a part-time science-fiction writer, he enjoyed writing about impossible things, like green men traveling through deep space in rockets, zapping one another with ray guns . So when it came to explaining the "Big Bang" theory to fellow scientists, he used quaint little cartoons to emphasize the details. The cartoons really helped sell the idea.

Illustrating his points with these intriguing little cartoons, he caught the attention of young scientists. Because of Gamow, the Big Bang hypothesis is very widely accepted in the scientific community today.

Here is a closer look at how many of the scientists imagine that this explosion took place.

WHEN NOTHING GETS TOGETHER —At first, the universe was totally empty with nothing in it. We are told that this empty space gradually began crowding together.

Scientists are not sure why nothing should want to come together, much less what pushed it there (especially since everything else in the universe was already supposed to be empty). But in some strange manner, unexplainable by the laws of physics, it did it anyway . Push, push, push; the void grew denser as more shoved its way in. Emptiness was packed in so tight that it was an aching void! Any more would have filled it less and less. (Which does sound a little odd, doesn't it?)

And then it happened! Suddenly the emptiness exploded! And that was the Big Bang.

*Gamow described it in scientific terms: In violation of physical law, emptiness fled from the vacuum of space—and rushed into a superdense core, that had a density of 1094gm/cm2 and a temperature in excess of 10" degrees absolute. That is a lot of density and heat for a gigantic pile of nothingness! (Especially when we realize that it is impossible for nothing to get hot. Yes, air gets hot, but air is matter, not an absence of it.) Where did this "superdense core" come from? Gamow solemnly came up with a scientific answer for this; he said it came as a result of "the big squeeze," when the emptiness made up its mind to crowd together. Then, with true scientific aplomb, he named this solid core of nothing, "ylem" (pronounced "ee-lum"). With a name like that, many people thought this must be a great scientific truth of some kind. In addition, numbers were provided to add an additional scientific flair: This remarkable lack-of-anything was said by Gamow to have a density of 10 to the 145th power g/cc, or one hundred trillion times the density of water!

Then all that packed-in blankness went boom!

LAWS APPEAR—After the Big Bang occurred—the law of gravity is supposed to have invented itself, which is quite a thought. Soon the complete formulas of other laws began inventing themselves.

"The naive view implies that the universe suddenly came into existence and found a complete system of physical laws waiting to be obeyed . . Actually it seems more natural to suppose that the physical universe and the laws of physics are interdependent." —* WH. McCrea, "Cosmology after Half a Century," Science, Vol. 160, June 1968, p. 1297.

Gamow estimates that gravity broke free 10-43 seconds after the Big Bang—or a decimal point followed by 42 zeros and a 1.

GAS GETS INTO CLUMPS —At some point after the explosion (theories vary as to when) as temperatures cooled, it is theorized that the nothingness magically turned itself into hydrogen! Then, at some point immediately or thereafter (opinions vary), some of the hydrogen changed into helium.

Both hydrogen and helium are gases. We are told that the gas spread outward throughout the universe for about ten billion years, and—contrary to the laws of physics—the hydrogen and helium gas gradually pushed itself into chunks. More and more of it clumped together, until soon gigantic pieces of it had formed. These became stars and galaxies with their intricate orbits.

"The current theory of the origin of the universe is called the Big Bang. According to this theory, a fireball exploded 15 to 20 billion years ago. Then matter and energy spread outward in all directions, cooling as it expanded. After about 500,000 years, hydrogen gas formed. The gas collected into clouds which formed galaxies during the next half billion years. Now all that remains are galaxies and radiation. Within the galaxies, stars form and die and new ones form." —*M. Bishop, *B. Sutherland, and *P. Lewis, Focus on Earth Science (1981), p. 470.

The initial "Bang" explosion is said to have produced only hydrogen and perhaps helium, but after the stars had pushed themselves together—they began exploding like strings of firecrackers. Then, reforming, large numbers exploded a second time. And presto! All 90 elements had been produced by the second wave of explosions!

A UNIVERSE OF EXPLOSIONS —As the story goes, explosion after explosion took place as loose gas pressed itself into stars and then those stars exploded. Hundreds of billions of stars were exploding all over the universe. This went on for long ages. There was no reason why it started, and there was no way for it to stop. It was a self-initiating activity, destined to continue on forever. These regularly-occurring explosions should be occurring in our own time. When you go out tonight you ought to be able to see exploding stars in the sky.

Each time these stars exploded outward, they gathered back together and exploded again. We are told that our own sun had its third explosion about 5 billion years ago.

But, quite well aware that stars are not now regularly exploding in the sky, the theorists came up with the idea that about a million years ago the explosions mysteriously stopped! Why did they set that terminal date at "a million years ago"? Because—at the time that the Big Bang theory was devised—the most distant stars were thought to be a million light years away, and since they are not now seen to be exploding—it was decided that they must have stopped exploding just before the time that their starlight was sent to us from that those farthest distances from Earth.

It took a science fiction writer to bring all these new ideas to the attention of the scientists. Because it is a concept about how the entire universe began, the Big Bang Is called a "cosmology. "

REARRANGING TIME —Half a century ago, it was theorized that the universe might be two billion years old. But in order to make room for this new "Big Bang" theory of the origin of matter, the age of the universe was pushed back to between 10 to 20 billion years old, with the Big Bang occurring most probably 15 billion years ago.

This strange theory of fog coming out of nothing and then pressing itself into stars may sound like foolishness, but we are here discussing the only main theory of the origin of matter accepted by evolutionary scientists in this, the last half of our enlightened twentieth century.

Since this is a major part of the overall evolutionary theory taught in colleges and universities all over the land, we do well to learn a few of the scientific reasons why it is totally impossible!

2 — FACTS WHICH DISPROVE THE BIG BANG THEORY

[1] 45 Problems

WHY IT IS NOT TRUE We have seen what the theory says. But it Is In complete disagreement with many scientific facts, principles, and laws. Let us for a few moments consider some of the evidence that disproves this astounding concept of how matter and stars originated.

(1) NOT SQUEEZABLE— Nothingness never packs together . It would have no way to push itself into a pile. There is no physical law to explain such a peculiar event.

*Hannes Alfven, professor of plasma physics at the Royal Institute of Technology, Stockholm, heatedly opposes the idea that the universe could ever have attained such a fantastic density.

The Big Bang is supposed to be an explosion of concentrated nothingness. But nothingness never pushes itself into anything, much less a concentrated pile. A total vacuum is the complete opposite of total density . This theory is not science, but a playing with words.

(2) NOT STOPPABLE —There would be no mechanism that could push all the emptiness in the universe to a common center,—and then, having arrived there, to suddenly stop it at a single point. It would just rush on past.

If emptiness could press itself together, there would be nothing to hold itself tightly meshed for even a short time. Gravity operates only on matter and radiation, not on a lack of it. There is no such thing as a vacuum being pulled by gravity into something dense. It is, as said above, just a playing on words.

(3) NOTHING TO EXPLODE IT Not only was there no matter in this theoretical "beginning,"—there obviously could be no energy at that time either . It takes energy to have an explosion. There was no match to start the fire. Without energy there can be no heat, no explosion. Yet the Big Bang is supposed to have produced a massive heat blast which congealed vacuity into hydrogen.

This theory is supposed teach the origin of matter. But it would also have to include the origin of energy, for the two are variant forms of one another. An explosion could not occur without energy, and without matter there would be nothing to explode outward . Without pre-existing matter and energy, there could be no match, no fire, no fuse, and no dynamite. Nothing exploding with no energy to explode, it is impossible .

Some Big Bang supporters think that perhaps there may originally have been an immense concentration of energy. But they have absolutely no idea where it came from or how it got there. To say that energy already existed in the beginning is to self-destruct any "origin of matter" theory based on that idea. This is because matter and energy are alternate forms of the same thing. Any "origin of matter" theory must also explain the origin of energy.

Other evolutionists have come up with the theory that energy was initially created by an explosion of no-energy! But that is just more of this evolutionary " word wizardry " that may sound convincing, but in reality is utter foolishness.

Seriously now, "nothing exploding with no energy to explode it" is clearly impossible twice over.

It is of interest that every evolutionary theory that tries to explain the origin of either matter or energy—always tacitly assumes that one or both already existed.

(4) NO WAY TO EXPAND IT —Even if that magical vacuum could somehow be pulled together by gravity (which it cannot), what would then cause the big pile of emptiness to push outward ? The same "gravity" that brought it together, would later prevent it from expanding.

A total vacuum can not be expanded any more than it can be contracted . If a pile of emptiness could be pressed together, what would later untie it, much less explode it outward? (I know all this sounds like foolishness, but we are discussing a foolish notion, such as one would expect to find only in fairy tales for small children.)

The origin of matter theory teaches that, by the time of expansion, the vacuum had been transformed into hydrogen and helium. So, beginning at this point, we will assume that that which is exploding outward is not emptiness, but gas.

(5) NO WAY TO SLOW IT—If hydrogen gas blew outward after an explosion in outer space, there would be no way to slow it. This is a key point. An explosion of matter would cause an outward spray of gas and energy . It would continue to move outward in space forever. Space is frictionless. There would be no way to slow the gas, nothing to stop it.

(6) NO WAY TO CLUMP IT —On earth, gas never clumps into a solid. Out in space, where everything is a near-vacuum, it would be totally impossible—impossible in the extreme——for this to occur. Throughout the voids of space between the stars is to be found various gases, the primary one of which is hydrogen . These gaseous compounds never move away from an area of vacuum into an area of congestion or density. Never, never, never . It just does not happen. The hydrogen gas observed by astronomers through telescopes is gradually expanding. None of it is packing together. There are no exceptions! Slow expansion of gaseous matter in outer space is normal, and in accordance with physical laws.

"Scattered through the vast darkness between stars, the molecules of interstellar space range. . These molecules of hydrogen, carbon monoxide, and scores of other compounds generally make up a tenuous soup—a trillion trillion times less dense than stars or planets." —* Allan Fallow, et. al., Between the Stars (1990), p. 65.

Frankly, after examining item after item of scientific facts in this chapter, we will find the Big Bang theory to be only a connected series of tiny tot stories. Repeatedly, we will find that the theories run counter to the facts.

(7) NO WAY TO PRODUCE STARS —That outrushing gas from the Big Bang that was not able to stop or clump, we are told then did so. And more, it began forming itself into the intricate patterns of planets, stars, and galaxies! This is an important point; in fact, it is a key one. The laws of physics provide no mechanism by which outwardly exploding gas could clump together into stars This is a crucial point.

"Probably the strongest argument against a big bang is that when we come to the universe in total and the large number of complex condensed objects in it [stars, planets, etc.), the theory is able to explain so little." —*G. Burbridge, "Was There Really a Big Bang?" in Nature,233:36-40.

Gas floating in the vacuum of outer space cannot form itself into stars. Once a star is formed, it can hold itself together by gravity, but there is no way that gas in outer space can get the operation started. (All gas clouds in outer space are more rarified than that found in the most rarified vacuum-bottle pressures that man is able to produce on earth.) Yes, once a star exists, it will absorb gas into it by gravitational attraction. But before the star exists , gas will not push itself together and form a star—or a planet, or anything else. It will remain just loose, floating gas.

(8) NO WAY TO PRODUCE COMPLEX ATOMS —*George Gamow and his associates decided that, after the initial explosion, outflowing emptiness first changed itself into hydrogen and helium atoms, with their nuclei, protons, electrons, and all the rest. These two elements are very complex in their structure, even though they have less atomic units in them than do the other elements. (There are 81 stable chemical elements; 90 natural elements; 105 total elements discovered to date; of carbon compounds alone there are thousands.) How can such nuclear complexity emerge from nothing? It cannot be done, yet *Gamow theorized that all the hydrogen and helium in the universe magically brought itself into existence.

(It should be mentioned that only in the intense heat of a nuclear explosion can hydrogen even change into helium.)

(9) NO WAY TO GO PAST THE HELIUM MASS 4 GAP—In a thermonuclear explosion, hydrogen may be changed into helium, but it is much, much more difficult (some consider it impossible) for hydrogen to go past the "helium mass 4 gap" and produce the heavier atoms in an explosion.

The Big Bang theory requires an atom-building process after the initial explosion. This initial atom-building process is based on successive neutron-capture reactions to achieve elements of increasing atomic weights in a stepwise manner, starting with, according to one Big Bang theory, a 100 percent neutron content of the primordial ylem. According to the theory, at the end of the first 30 minutes slightly more than half of the ylem has been converted into hydrogen, with slightly less than half into helium . But it is quite another thing to go past helium! Physicists know well that, among nuclides that can actually be formed, a gap exists at mass 5 and 8. The first gap is caused by the fact that neither a proton nor a neutron can be attached to a helium nucleus of mass 4. Because of this gap, the only element that hydrogen can normally change into is helium.

It is true that some scientists believe that a hydrogen bomb explosion can produce elements beyond helium, but there is also evidence (which we will discuss later in this chapter) which would indicate that this is not so.

"In the sequence of atomic weight numbers 5 and 8 are vacant. That is, there is no stable atom of mass 5 or mass 8 . . The question then is: How can the build-up of elements by neutron capture get by these gaps? The process could not go beyond helium 4 and even if it spanned this gap it would be stopped again at mass 8 . . This basic objection to Gamow's theory is a great disappointment in view of the promise and philosophical attractiveness of the idea. —.* William A. Fowler, quoted in Creation Science, p. 90 [California Institute of Technology].

For additional information, see the quotation supplement, "3 - The Mysterious Elements," at the end of this chapter.

(10) NO WAY TO COMPRESS LOOSE GAS —Since both hydrogen and helium are gases, they are good at spreading out, but not at clumping together. Both hydrogen and helium are very much like fog . Have you ever seen fog push together into balls? It never does. Stars do indeed have helium and hydrogen—and once together, a star maintains its gravity quite well. But getting it together In the first place is the problem .

"There is no accepted theory as to how the hot gas clouds of hydrogen and helium arising out of the big bang condensed into galaxies, stars and planets. It would seem that the possibility of such a condensation is similar to the probability for all of the air in a room to collect in one corner—just by random motion of the molecules." —H. M. Morris, W, W, Boardman, and R. F. Koontz, Science and Creation (1971), p. 89.

All the gas in those marvelous gas clouds of the cosmologists begins like all the gas clouds now in outer space: with a density so rarified that it is far less than the emptiest atmospheric vacuum bottle in any laboratory in the world! If men cannot push cold hydrogen into a solid on earth where we have lots of barometric pressure from the atmosphere to help us—how do they expect hydrogen to have done it by itself in the near-total vacuum of outer space?

Gas will not naturally compress itself under conditions existing on earth or in outer space. Have you ever seen fog push itself together into solids? This is an important point which we will return to. All hydrogen gas in outer space now is slowly expanding outward; it is never contracting inward.

(11) NOT ENOUGH TIME—Astronomers tell us that the diameter of the universe is over 20 billion light years. Evolutionists tell us that the Big Bang occurred 10 to 20 billion years ago, and stars were formed 5 billion years later. Evolutionary theorists only allow about 21/2 billion years from the time of the Big Bang till hydrogen and helium had spread throughout the universe, and another 21/2 billion years for it to clump together into stars! Their dating problem has been caused by the fairly recent discovery of supposedly faraway quasars (which we will discuss in greater detail later in this chapter).

Scientists now say that the distance from our world to the farthest-known quasars (those with a red-shift of 400 percent) are at least 15 billion light-years ! That would make them at least 15 billion years old, which is too old to accommodate the theory.

We have no evidence that hydrogen or helium anywhere in the universe travels at the speed of light (186,000 miles per second). But even if it could, it would take 15 or 20 billion years for hydrogen and helium to reach the farthest part of the universe—or over a trillion years if it went at the speed that hydrogen gas is currently traveling outward from super-novas.

After reaching the edge of the universe (if there is an edge), it would then take a long, long time for the thinly spread-out hydrogen and helium fog to devise a way to lock together (if the gas had the brains to figure out such a pressing problem).

So there is just not enough time in the evolutionary timetable from the Big Bang till the universe was filled with stars. The Big Bang theorists are divided on when it occurred; some say 20 billion years ago, others 10 billion. We will here assume the longest timeframe: 20 billion years. But quasars have now been found which, by Big Bang-accommodating theories, are "15 billion years old." This does not provide enough time for the gas to spread outward throughout the universe, form itself into stars, then wait while billions of supernovas repeatedly explode (to produce heavy elements [if they could do so]), reform into stars, explode more times, and finally form into our present orbiting stars, galaxies, clusters, and superclusters.

Before concluding this section, we will try to tack down the Big Bang dates. Generally, the Big Bang itself is supposed to have exploded 10 to 20 billion years ago, with the first formation of stars occurring 250 million years after the explosion. At some lengthy time after the gas coalesced into "first generation " stars, most of them exploded, and then, 250 million years later, reformed into "second generation" stars . Our sun is thought to be at least a second generation star, having previously exploded at least once, and perhaps twice. Apparently, no one ever dates the Big Bang earlier than 20 billion years ago. Here are several representative statements:

"Big Bang: According to a widely accepted theory, the primeval moment, 15 to 20 billion years ago, when the universe began expanding from a single point." —* Kirk D. Borne, et. al, Galaxies (1988), p. 134.

"Until 250 million years after the Big Bang, Gamow maintained, matter took the form of a thin gas, evenly spread throughout space . . Each cloud began to condense and break up into myriad stars ." — op. cit., pp. 113-114.

"What is the universe like? If it had a beginning, how did it begin? How did it evolve to make galaxies, stars, planets, and ultimately human beings? These are the sorts of questions astronomers are trying to answer as they aim their large telescopes toward the depths of outer space.

"In this century, they've developed a picture of the universe as having an explosive beginning, which they call the Big Bang. According to Big Bang cosmology our universe began around 10 billion years ago. Then came a time when the galaxies were made as matter collected into islands in space in which stars were born." —*Star Date (radio broadcast), October 2, 1990.

"When did the big bang take place?. . A figure that is generally accepted as at least approximately correct is 15 billion years. If an eon is 1 billion years, then the big bang took place 15 eons ago, although it might just possibly have taken place as recently as 10 eons ago or as long as 20 eons ago. "—* Isaac Asimov, Asimov's New Guide to Science (1984), p. 44.

(12) NO WAY TO PRODUCE ENOUGH OF THE HEAVIER ELEMENTS —We now know of 81 stable elements, 90 natural elements, and 105 total elements. It requires a sizable number of books to explain all that we have learned about their unusual properties and intricate orbits. Where did all those elements originate? It is theorized that explosions of large stars (super-novas) produced them. But, although it is thought that a small amount of heavier elements are made by high-thermal explosions within stars, yet (1 ) there is great uncertainty whether, aside from hydrogen and helium, such explosions could produce many light elements, much less those of the post-helium ("heavy") elements, and (2) there is no evidence that such explosions could produce enough of the heavier elements to provide for all the post-helium elements in the universe, much less in our own planets. The Big Bang theory simply does not account for the abundance and variety of heavier elements.

Normally, because of the helium mass 4 gap, explosions of hydrogen can only produce helium. At first, Big Bang theorists maintained that that initial explosion produced all 90 elements. But later, recognizing the helium mass 4 gap, they admitted that even if the Big Bang explosion could make "something out of nothing," that primeval explosion (the Big Bang itself) —and even explosions of small stars (novas) —could only produce hydrogen and helium. For this reason, they looked to explosions of very large stars—super-nova explosions—to change hydrogen into the heavier elements.

But then came more obstacles. Although it is thought that the intense heat inside a large star is such that a few heavier elements might actually be produced, this would not solve the theoretical problem for two reasons: (1) Only a super-nova explosion is thought powerful enough to produce the heavy elements, and there have been relatively few super-nova explosions. More on this later in this chapter. That is problem enough, but (2) even those scientists that believe that super-nova explosions could produce heavy elements admit that only a small amount of such elements could possibly be produced by an exploding super-nova, and that would not be sufficient to produce enough heavy elements. The quantity of post-helium elements in the universe is too great for them to have come from super-nova explosions.

(13) ELEMENTAL COMPOSITION OF PLANETS AND MOONS IS TOTALLY DIFFERENT THAN THAT FOUND IN STARS —Here on earth we find large quantities of the heavier elements. We have 90 natural elements; where did they come from? Each nuclear test explosion is thought to produce an extremely small amount of certain elements, but not enough quantity or variety is produced.

The lighter elements tend to be found in larger quantities in the stars (although heavier elements have been identified in them as well as in interstellar gas). Science cannot explain why our earth is composed of such heavy elements. If stars produced our world, why does our planet have such different elements than the stars have? A leading astronomer, Fred Hoyle explains that the problem is a major one that has evolutionists baffled:

"Apart from hydrogen and helium, all other elements are extremely rare, all over the universe. In the sun they [the heavier elements] amount to only about 1 percent of the total mass. . The contrast [of the sun's light elements with the heavy ones found on earth] brings out two important points.

"First, we see that material torn from the sun would not be at all suitable for the formation of the planets as we know them. Its composition would be hopelessly wrong. And our second point in this contrast is that it is the sun that is normal and the earth that is the freak. The interstellar gas and most of the stars are composed of material like the sun, not like the earth. You must understand that, cosmically speaking, the room you are now sitting in is made of the wrong stuff. You yourself are a rarity. You are a cosmic collector's piece." — *Fred C. Hoyle, Harper's Magazine, April 1951, p. 64.

(14) RANDOM EXPLOSIONS DO NOT PRODUCE INTRICATE ORBITS —Extremely complicated factors are involved just in maintaining the proper rotations and revolutions of galaxies, stars, and planets . How could haphazard explosions result In the marvelously intricate circlings that we find in the orbits of suns, stars, and galactic systems!

And, within each galaxy, millions to billions of stars are involved in those interrelated orbits!

"Galaxy: a system of stars, gas, and dust that contains from millions to hundreds of billions of. stars." —*Kirk Borne, et . al., Galaxies (1988), p. 135.

The complex obedience to natural law that we find everywhere in the universe is astounding. Were these careful balancings not maintained, the planets would fall into the stars, and the stars would fall into their galactic centers—or they would all fly apart!

The careful balancing of gravity vs. centrifugal force that we now see throughout the universe in the orbits of the spheres is a continual marvel. All the stars and galaxies should separate or crash. But instead, they just keep going around in circles . —And we are to believe that all this started because something—pardon me—nothing exploded?

Random explosions never produce orbits! Shall I say that again? Random explosions never produce orbits. No type of explosion can produce the intricate, carefully balanced orbits of the stars, planets, and moons . The universe is filled with orbiting bodies. All available evidence indicates that every outer-space object in the universe orbits something else! Evolutionary theory cannot explain those orbiting bodies.

(15) WHY DID THE EXPLOSIONS STOP — When a star explodes, it is called a nova. When a large star explodes, it becomes extremely bright for a few weeks or months, and is called a "super nova." The theory of the Big Bang includes the idea that billions of stars have exploded and most of them several times. But there is nothing in the theorized mechanism to start the process, —and there is nothing to stop it either.

According to the theory, it is the explosions of the very large stars that produced all the heavier elements. Such super-nova explosions are said to have occurred by the millions and billions for long ages of time. Why then did the explosions stop? They are said to have ceased exploding 5 billion years ago—and why? Frankly, for the convenience of the Big Bang theorists! As mentioned earlier, when the theory was first devised in the 1940s, the farthest star was said to be 5 billion light years distant, so it was decided that the super-novas stopped exploding 5 billion years ago! Is that scientific? Millions of stars were theoretically blowing their tops, but just before we could look out into space and see starlight from stars 5 billions light years away—the fireworks suddenly stopped.

If the theory be true, the explosions should be going on now. We should see over a thousand explosions nightly . (The theorists tell us our own sun has exploded and reformed three times!) Large numbers of gigantic super-nova explosions should be occurring right now on an immense scale, for there are multitudes of stars out there and super-nova explosions are obvious when they occur. Some become as bright as our own planets; some become brighter.

It is a cardinal requirement of evolutionary theory (uniformitarianism, it is called) that whatever happened earlier in time is happening today. That is a strict point of evolutionary theory, everything that happened earlier is happening today, and conversely, everything happening today is the way things happened earlier. According to evolutionary theory, the same quantity of explosions should be occurring now as before. Yet with the naked eye we never see such happenings, and through their telescopes few astronomers have ever seen a supernova that has even recently exploded.

"A supernova explodes in an average galaxy only once every 100 years or so." —*Reader's Digest Book of Facts (1987), p. 394.

At the present time, the farthest known objects are said to be not 5 billion but 15 billion light years distant, which would eliminate the time needed for all or most supernova explosions to produce elements . Research astronomers tell us that about one supernova explosion is seen every century, and only 14 have exploded in our galaxy in the past 2,000 years. If the explosions occurred in the past, they should be occurring now.

(16) TOO FEW SUPERNOVAS AND TOO LITTLE MATTER FROM THEM — As mentioned earlier, in addition to occurring very infrequently , supernovas do not throw off enough matter, to make additional stars , and the smaller stellar explosions (novas) cast off an extremely small amount of matter. Yet, according to the Big Bang theory, the only source for all the heavy elements in the universe had to be super-nova explosions.

A small star explosion, or nova, only loses a hundred-thousandth of its matter; a supernova explosion loses about 10 percent, yet even that amount is not sufficient to produce all the heavier elements found in the planets, interstellar gas, and stars.

"In a typical novas explosion, the star loses only about a hundred-thousandth part of its matter. The matter it throws off is a shell of glowing gases that expands outward into space . .

"A supernova throws off as much as 10 percent of its matter when it explodes. Supernovae and novae differ so much in the percentage of matter thrown off that scientists believe the two probably develop differently. A supernova may increase in brightness as much as a billion times in a few days. Astronomers believe that about 14 supernova explosions have taken place in the Milky Way during the past 2,000 years. The Crab Nebula, a huge cloud of dust and gas in the Milky Way, is the remains of a supernova seen in A.D. 1054. Super-novae are also rare in other galaxies." —* World Book Encyclopedia (1971), p. N-431.

Early in the morning of February 24, 1987, such an explosion was observed simultaneously by three astronomers, working in Chile, New Zealand, and Australia. It occurred in the Veil Nebula within the Large Magellanic Cloud. This was the first bright, close supernova seen since A.D. 1604, when the German astronomer Johannes Kepler spied one in the constellation Ophiuchus! So few super-novas have occurred, that we know the dates of many of them. The Chinese observed one in A.D. 185, and another in 1006 which was 200 times as bright as Venus and one tenth as bright as the moon! In 1054 a phenomenally bright one appeared in the constellation Taurus. It produced what we today call the Crab nebula, and was visible in broad daylight for weeks. Both the Chinese and Japanese recorded its position accurately. In 1572, another extremely bright one occurred in Cassiopeia. Tycho Brahe, in Europe, wrote a book about it. The next bright one was seen in 1604, and Johannes Kepler wrote a book about that one. The next bright one occurred in 1918 in Aquila, and was nearly as bright as Sirius—the brightest star next to our sun. Some have been found in other galaxies, but they are equally rare events. (A bright one occurred in the Andromeda galaxy in 1918.)

So supernovas Gamow's fuel source for nearly all the elements in the universe occur far too infrequently to produce the heavier elements of the universe.

(17) "TOO PERFECT" AN EXPLOSION—On many points, the theoretical mathematical calculations needed to turn a Big Bang into our present world cannot be worked out; in others they are too exacting, "too perfect," according to knowledgeable scientists. Mathematical limitations would have to be met which would be next to impossible to achieve. The limits for success are simply too narrow.

The theorists have tried to figure out some possible way in which a primeval explosion could have accomplished everything they need it to accomplish. Most aspects of their theory are impossible, and some require parameters which would require miracles to fulfill. One example of this is the expansion of the original fireball from the Big Bang, which they place precisely within the narrowest of limits :

"If the fireball had expanded only .1 percent faster, the present rate of expansion would have been 3 x 109 times as great. Had the initial expansion rate been .1 percent less and the Universe would have expanded to only 3 x 10-s of its present radius before collapsing. At this maximum radius the density of ordinary matter would have been 10-t 2 gm/crn3, over 1016 times as great as the present mass density. No stars could have formed in such a Universe, for it would not have existed long enough to form stars." —* R.H. Dicke, Gravitation and the Universe (1969), p. 62.

(18) NOT A UNIVERSE BUT A HOLE —*Roger L. St. Peter in 1974, developed a complicated mathematical equation which revealed that the theorized Big Bang could not have exploded outward into hydrogen and helium (which supposedly later formed itself into stars and galaxies). In reality, according to St. Peter, such an explosion would have fallen back upon itself and formed a theoretical black hole. This would mean that one imaginary object would have been swallowed by another one.

"The alleged big bang would never have led to an expanding universe at all; rather it would all have collapsed into a black hole." — Creation Research Society Quarterly, December 1982, p. 198 [referring to *St. Peter's calculation].

(19) NON-REVERSING, NON-CIRCLING — The outward-flowing gas from the initial explosion would just keep moving outward forever through frictionless, gravitationless space. But , in order to produce the stars and galaxies which today exist, that gas would have had to pause, change directions, circle, clump, and do a number of other exotic things. It would have had to change direction of travel several times .

A vacuum is not subject to gravity, but this vacuum was different: it supposedly was drawn inward to a common center, then changed into outward, moving gas, which then veered away from straight-line motion into circles! Then the gas made itself into all the stars of the heavens! Imagine firing a shotgun with billions and billions of pellets out into frictionless space, Out it goes, then it stops, while some of the pellets travel backwards into the area they came from, and congregate into groups and then, of all things, begin circling one another! And these circling groups then begin revolving around still other distant groups, and continue doing so forever. Would shotgun pellets fired in outer space do that? Why then should we expect that floating gas would do it?

From the above illustration, it is obvious that an explosion in outer space would produce neither stars, galaxies, planets, nor complicated orbiting systems. Following an initial explosion, all the material having shot outward, would just keep moving outward forever. In space, there would be no friction to stop it.

(20) MISSING MASS— Mathematical astronomers tell us there is not enough mass in the universe to meet the demands of the various theories of origin of matter and stars. The total mean density of matter in the universe is about 100 times less than the amount required by the Big Bang theory.

The universe has a low mean density. To put it another way, there is not enough matter in the universe. This "missing mass" problem is a major hurdle, not only to the Big Bang enthusiasts, but also to the "expanding universe" theorists. Observations of stars, clusters, and galaxies indicates there is only about one-third of the mass required to close the universe (that is, eventually halt its theoretical expansion). (More on the "expanding universe" theory, another corollary needed by the Big Bang enthusiasts, in the next chapter.)

" 'Most attempts to fit a cosmological model to observations have in fact implied that the total mean density of matter in the universe is much greater (maybe 100 times) than the mean density of luminous matter.' McCrae says that whether or not the universe contains this 'missing mass' is 'perhaps the most important unsolved problem of all present day astronomy.' "—* W H. McCrea, quoted in H. R. Morris, W. W. Boardman, and R. F. Koontz, Science and Creation (1971), p. 89.

"Creationists (for example Slusher) have shown that there is insufficient mass for galaxies to hold gravitationally together over billions of years. Evolutionary astronomers have sought to explain away this difficulty by postulating some hidden sources of mass, but such rationalizations are failures. Rizzo wrote:

" 'Another mystery concerns the problem of the invisible missing mass in clusters in galaxies. The author evaluates explanations based on black holes, neutrinos, and inaccurate measurements and concludes that this remains one of the most intriguing mysteries in astronomy.' [*P.V. Rizzo, "Review of Mysteries of the Universe, " in Sky and Telescope, August 1982, p. 150.]

"The obvious solution is that there really is no hidden mass, galaxies cannot hold together for billions of years, and galaxies have not been in existence long enough to fly apart." — Creation Research Society Quarterly, December 1984, p. 125.

*Hoyle says that, without enough mass in the universe, it would not have been possible for gas to change into stars.

"Attempts to explain both the expansion of the universe and the condensation of galaxies must be largely contradictory so long as gravitation is the only force field under consideration. For if the expansive kinetic energy of matter is adequate to give universal expansion against the gravitational field, it is adequate to prevent local condensation under gravity, and vice versa. That is why, essentially, the formation of galaxies is passed over with little comment in most systems of cosmology." —*F. Hoyle and *T . Gold, quoted in * D.B. Larson, Universe in Motion (1984). p. 8.

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