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"What Does the Universe Tell Us About God?" (an article from Return to 

God Magazine, Volume 1 Number 3, page 16).

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Now more than any other time in history we have an abundance of 

scientific evidence regarding the creation of the universe and the way 

it works. This evidence, though surprising to some scientists, is very 

consistent with the concept of God as the Creator. Let's look at how 

recent discoveries and the design of the universe are testaments to 

God's creative power. 



DISCOVERIES PROVE CREATION EVENT OCCURRED

"It is the discovery of the century, if not of all time." 

-- Stephen Hawking, Cambridge University

"What we have found is evidence for the birth of the 

universe...It's like looking at God" -- George Smoot, 

University of California at Berkeley.

[The idea that God created the universe is] "a more 

respectable hypothesis today than at any time in the last 

hundred years." -- Frederic B. Burnham, science historian.



The scientists were referring to a discovery on April 24, 1992 by an 

American research team from data obtained through the COBE (Cosmic 

Background Explorer) Satellite. This discovery substantiated the "big 

bang" theory of the creation of the universe. The "big bang" theory 

states that "the entire physical universe -- all the matter and energy, 

and even the four dimensions of space and time -- burst forth from a 

state of infinite, or near infinite, density, temperature and pressure. 

The universe expanded from a volume very much smaller than the period at 

the end of this sentence, and it continues to expand." (1) 



Discoveries prior to COBE had shown that the universe was expanding, 

as would be expected after an explosive creation event. Earlier COBE 

missions had shown that the universe must have had an extremely hot 

beginning 15 to 20 billion years ago because the background radiation 

temperature is now very low and smooth. But scientists expected to find 

slight variations in the background radiation. These variations would 

explain how galaxies "clumped" while background radiation remained 

smooth. The April 1992 COBE measurements and subsequently released data 

showed exactly the kind of slight variations in background radiation 

that scientists expected to find. Scientists now know that the universe 

was created by a single hot explosive creation event. 



CREATION EVENT IMPLIES A CREATOR

How does a single hot, explosive creation event prove the existence of 

God? Many belief systems that deny the existence of God have resisted 

the idea of a "big bang" creation event, instead favoring hypotheses 

such as the Steady State model, which claims the universe has always 

existed or the Oscillating Universe model, which claims the universe 

expands and contracts, essentially recreating itself, without requiring 

an ultimate beginning. The proof of a creation event, or beginning of 

the universe shakes the foundations of non Judeo-Christian belief 

systems -- for there to be a beginning, there must be a Beginner, 

outside of our universe. The argument for the existence of God 

follows.(2)

1. Everything that begins to exist must have a cause of its existence.

2. The universe began to exist (we can scientifically prove).

Therefore, the universe must have a cause of its existence.



Einstein, who initially discovered that the universe was expanding and 

decelerating (which pointed to a "big bang" creation event) came to 

accept the idea of a beginner, or "superior reasoning power"(3), but did 

not accept the idea of a personal God, such as the God of the Bible (see 

"Einstein Believed in a Creator" at the end of this article).



The physical properties of the universe are also a testament to a 

Designer. When we examine the universe, we see not a random 

conglomeration, but a very carefully crafted design. 



PHYSICAL EVIDENCE SUBSTANTIATES AN INTELLIGENT CREATOR

Most of us take for granted the environment in which we live and the 

scientific properties that make our life here possible. For example, we 

may think that the stars we see are beautiful, or perhaps may have 

planets of their own where perhaps there may be other life, but few of 

us realize that the approximately hundred-billion-trillion stars must be 

there for life to be possible on earth. The stars comprise the mass 

density of the universe, which determines how efficiently nuclear fusion 

operates. If the mass density was too great, the stars (for example our 

sun) would have burned too quickly and not steadily enough to support a 

planet with life. If the mass density was too small, the heavier 

elements necessary for life would have never formed. 



Supernova eruptions which regularly occur in our universe are 

necessary to produce elements such as iron and calcium which are 

essential for life. 



Indeed, the basic building blocks for life depend on a very delicate, 

finely-tuned balance of the physical properties of our universe. Table 1 

lists the twenty five characteristics that researchers have uncovered 

that must fall within narrow ranges for life to exist. Table 2 describes 

some of these characteristics in more detail.



TABLE 1 - KEY PROPERTIES OF THE UNIVERSE WHICH MUST FALL WITHIN NARROW 

VALUES TO SUPPORT LIFE

(This is a summary of the table; the actual graphic couldn't be 

included here)

Basic building blocks for life depend on a very delicate, finely-tuned 

balance of the physical properties of the universe. This table lists 

twenty five properties of the universe whose values must fall within 

very narrow ranges in order for life to exist.Derived from "The Creator 

and the Cosmos" by Hugh Ross, Copyright 1993, used by permission of 

NavPress.



- Strong nuclear force constant

- Weak nuclear force constant

- Gravitational force constant

- Electromagnetic force constant

- Ratio of electromagnetic force constant to gravitational force 

  constant

- Ratio of electron to proton mass

- Ratio of protons to electrons

- Expansion rate of the universe

- Entropy level of the universe

- Mass density of the universe

- Velocity of light

- Age of the universe

- Initial uniformity of radiation

- Fine structure constant

- Average distance between stars

- Decay rate of the proton 

- 12 Carbon to 16 Oxygen energy level ratio

- Ground state energy level for 4 Helium

- Decay rate of 8 Beryllium

- Mass excess of the neutron over the proton

- Initial excess of nucleons over antinucleons

- Polarity of the water molecule

- Supernova eruptions

- White dwarf binaries

- Ratio of exotic to ordinary matter



TABLE 2 - VALUES OF SOME KEY PROPERTIES OF THE UNIVERSE REQUIRED TO 

SUPPORT LIFE

(This is a summary of the table; the actual graphic couldn't be 

included here)

The delicate balance of the values of the properties of the universe 

required for life is evidenced by this sample of key values and the 

results of variying the values in any direction. Derived from "The 

Creator and the Cosmos" by Hugh Ross, Copyright 1993, used by permission 

of NavPress.



To support life, elements must bond together to form molecules. Two 

factors are required to allow molecular bonding. They are:

* Strength of the force of electromagnetism

  - If the force of electromagnetism was greater, atoms would not share 

    electrons with other atoms

  - If the force of electromagnetism was weaker, atoms could not hold on 

    to electrons at all.

* Ratio of the mass of the electron to the mass of the proton

  - If the ratio isn't delicately balanced, chemical bondings could not 

    take place



Atoms must be able to form to provide the elements required for life 

molecules. To support formation of atoms, the strong nuclear force, the 

weak nuclear force and gravity must each be delicately balanced.

* The strong nuclear force determines the degree to which protons and 

  neutrons (some components of atoms) stick together.

  - If the strong nuclear force was slightly greater (0.3% stronger) 

    life would be impossible because all protons and neutrons would bind 

    together. There would be only heavy elements in the universe.

  - If the strong nuclear force was slightly weaker (2%) life would be 

    impossible because protons and neutrons would not stick together. 

    Only one element, hydrogen would exist in the universe.

* The weak nuclear force governs the rates of radioactive decay

  - If the weak nuclear force was much stronger, matter would be 

    converted into heavy elements

  - If the weak nuclear force was much weaker, matter would remain in 

    the form of the lightest elements

* The strength of the force of gravity determines how hot the stars burn

  - If the force of gravity was stronger, stars would burn up too 

    quickly and erratically for life to exist

  - If the force of gravity was weaker, stars wouldn't be hot enough for 

    nuclear fusion; no heavy elements would be produced.



There must be the right number and mass of protons, neutrons and 

electrons in the universe in order to have life.

* Neutrons are and must be 0.138% more massive than protons

  - If neutrons were an additional 0.1% more massive, there wouldn't be 

    enough of them to make heavy elements necessary for life.

  - If neutrons were 0.1% less massive, protons would more rapidly decay 

    into neutrons and all the stars in the universe would have 

    collapsed.

* The number of electrons must be equal to the number of protons

  - If the number of protons and electrons aren't balanced, galaxies, 

    stars and planets would have never formed because electromagnetic 

    forces would have overcome gravitational forces.



The rate of expansion of the universe is how it must be to support 

life.

* If the universe expanded more quickly, matter would disperse and not 

  form into galaxies, stars or planets.

* If the universe expanded too slowly, matter would clump too much and 

  the universe would collapse in a super-dense lump.



EARTH - UNIQUELY ABLE TO SUPPORT LIFE

It is interesting to speculate about the possibility of life on other 

planets in other galaxies, however scientists have calculated the 

probability of life existing elsewhere in the universe at much less than 

one chance in a quintillion(4).

 

The earth is very uniquely suited to support life. It resides in a 

spiral galaxy that has the right rate of supernova events to provide 

sufficient heavy elements essential to life, without life-destroying 

radiation. Our sun is the right distance away from other stars in our 

galaxy to prevent gravitational interactions that would disrupt orbits 

of the planets, yet still have an even distribution of the heavy 

elements necessary for life.



Our sun has the very specific mass that is necessary to maintain a 

temperature suitable for life on earth. The distance between the sun and 

the earth is correct to maintain the earth's current rotation rate and 

to maintain the correct temperature to sustain life. Planets closer to 

the sun, such as Venus or Mercury have rotation periods of months which 

create wide temperature differentials incompatible with life. The 

distance between the sun and earth is also what it must be to support 

the stability of liquid water, which is necessary for life to exist. If 

the distance between the sun and earth changed as little as 2%, all life 

would cease to exist.



The moon also is as it must be to support life on earth. It is unique 

in our solar system in that it is large relative to its planet. It's 

resulting gravitational pull stabilizes the tilt of the earth and also 

helps the sea waters be cleansed and their nutrients replenished through 

the tidal cycle.



We have described just a few of many parameters of the earth, moon, 

sun and galaxy that must fall within very narrowly defined ranges for 

life to exist. Table 3 lists some of the parameters that must be just as 

they are to have life on earth.



TABLE 3 - PHYSICAL PROPERTIES OF EARTH AND SOLAR SYSTEM NECESSARY TO 

SUPPORT LIFE

(This is a summary of the table; the actual graphic couldn't be 

included here)

Derived from "The Creator and the Cosmos" by Hugh Ross, Copyright 

1993, used by permission of NavPress.



There must be one sun (or "parent star") to support life.

* If more than one sun in planetary system, tidal interactions would  

  disrupt planetary orbits.

* If no sun in planetary system, heat produced would be insufficient for  

  life.

The distance from the earth to the sun is just as it must be to 

support life.

* If the earth was farther from the sun, the planet would be too cool 

  for a stable water cycle.

* If the earth was closer to the sun, the planet would be too warm for a 

  stable water cycle.

The atmosphere has the correct mixture of gases: 78% nitrogen, 21% 

oxygen, .93% Argon, .035% carbon dioxide and .035% other gases.

* If the atmosphere had 25% oxygen or more, spontaneous fires would 

  break out because oxygen is flammable.

* If the atmosphere had 15% oxygen or less, air breathing creatures 

  would suffocate.

* If the atmosphere had more carbon dioxide, the earth may become warmer 

  (greenhouse effect).

* If the atmosphere had less carbon dioxide, plants would starve.

The  surface gravity escape velocity is as it must be to support life.

* If just a few percent stronger, the atmosphere would retain methane 

  and ammonia (molecular weights 16 and 17 ).

* If just a few percent weaker, the planet's atmosphere would lose too 

  much water (molecular weight 18).

Tilt of earth's axis (23.5 degrees) gives us our moderate seasons.

* If the tilt was greater-for example, Uranus has a 98 degree tilt- such 

  a tilt on earth would cause periodic continental flooding and long 

  periods of darkness.

* If the earth's tilt was less - for example, Venus has no tilt -the 

  lack of tilt would cause equatorial areas to grow hotter and the ice 

  caps to expand.

Proximity of moon is correct.

* If 1/5 the distance away, tides would completely submerge continents 

  twice a day.

* If no close moon, the earth would "wobble", as does Mars, causing vast 

  irregularities of tilt, thus extreme variations in climate.

Rate of earth's rotation is correct.

* If 1/10th the present rate, plant life would burn during the day and 

  freeze at night.

* If faster, wind velocities would rise to catastrophic levels. For 

  example, Jupiter has a 10-hour rotation period and thousand mph winds.

Thickness of the earth's crust is correct.

* If the crust was thicker, too much oxygen would be transferred from 

  the atmosphere to the crust.

* If the crust was thinner, volcanic and tectonic activity would be too 

  great.

The water vapor level in the atmosphere is as it should be.

* If the water vapor level was greater, runaway greenhouse effect would 

  develop.

* If water vapor level was less, rainfall would be too meager for 

  advanced life on the land.

Color of the sun is correct.

* If the sun was more red, the photosynthetic response would be 

  insufficient.

* If the sun was more blue, the photosynthetic response would be 

  insufficient.



WHAT DOES THIS TELL US ABOUT GOD?

The Designer of our universe created everything we know out of nothing 

(a volume much smaller than the period at the end of this sentence). "By 

faith we understand that the universe was formed at God's command, so 

that what is seen was not made out of what was visible." -- Hebrews 

11:3.



God must exist outside the four dimensions in which we live: length, 

width, height and time, for Him to have called them into being (see 

"Beyond the Created Dimensions" in this issue). He is an eternal, 

transcendent Creator. Scripture speaks of his existence before the 

beginning of time: "This grace was given us in Christ Jesus before the 

beginning of time" -- 2 Timothy 1:9; "...you loved me before the 

creation of the world." -- John 17:24; "In the beginning God created the 

heavens and the earth -- Genesis 1:1.



The design of the universe, the galaxy, the solar system and our 

planet are just as they must be to support life on earth. This design 

speaks of God's omnipotence, His skill as a Creator and His wisdom. The 

intricacies of design, the interrelationships, interdependence, function 

and beauty of His design are awesome. His design also speaks clearly of 

how much He cares for us. When we consider that a hundred-billion-

trillion stars are necessary to support human life, we can begin to 

understand the amount of care God took to construct the universe just so 

it can support life on our planet. "When I consider your heavens, the 

work of your fingers, the moon and the stars, which you have set in 

place, what is man that you are mindful of him, the son of man that you 

care for him?" -- Psalm 8:3-4.



The universe speaks very clearly indeed about our Creator, Who is 

eternal, wise, powerful, omnipotent, and most assuredly, cares very much 

about us.



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EINSTEIN BELIEVED IN A CREATOR

Einstein's equations of general relativity, published in 1915 and 1916 

provided profound implications about the origin of the universe. These 

equations show that the universe is simultaneously expanding and 

decelerating, a phenomena best described as an explosion. The fact that 

the universe was created by an explosion implies a Beginner who caused 

the explosion. Einstein resisted this conclusion and initially tried to 

hypothesize a new force of physics that would cancel out the 

deceleration and expansion factors, allowing the universe to be in a 

static state for an infinite period of time. However, in 1929, 

astronomer Edwin Hubble measured forty different galaxies, proving that 

the galaxies are expanding away from each other. 



As a result of Hubble's findings, Einstein acknowledged "the necessity 

for a beginning"(5) and "the presence of a superior reasoning power"(3). 

He did not accept, however, that the "superior reasoning power" was the 

God of the Bible. 



Einstein was Jewish but had been educated at a Catholic school. When 

rabbis and priests came to congratulate him on his discovery of God, he 

replied that he was convinced that the God that brought the universe 

into existence was intelligent and creative, but he denied that God was 

personal. He couldn't get beyond the paradox of God's omnipotence and 

man's responsibility for his choices:

"If this being is omnipotent, then every occurrence, including every 

human action, every human thought, and every human feeling and 

aspiration is also His work; how is it possible to think of holding men 

responsible for their deeds and thoughts before such an almighty Being? 

In giving out punishment and rewards He would to a certain extent be 

passing judgment on Himself. How can this be combined with the goodness 

and righteousness ascribed to Him?(6)"



Unfortunately, none of the rabbis or priests could provide him a 

satisfactory answer, rather they said that God had not yet revealed the 

answer and that he should blindly trust Him.



Einstein could not accept that answer and did not pursue the idea of a 

personal God any further. He held to the idea of an intelligent Creator 

but never accepted the idea of a personal God.



For an answer to Einstein's question about the paradox of God's 

omnipotence and man's responsibility for his choices, see the article 

referenced in the Return to God home page, "Beyond the Created Dimensions".



REFERENCES

Primary references and good books for further study include  The 

Creator and the Cosmos by Hugh Ross (Colorado Springs, CO.: Navpress, 

1993) and The Fingerprint of God by Hugh Ross (Orange, CA: Promise 

Publishing Co.,1991). Scripture quotations are from the New International 

Version (copyright 1985 by the Zondervan Corporation).



1 Ross, Hugh, The Creator and the Cosmos. (Colorado Springs, CO.: 

Navpress, 1993), p. 20.

2 Craig, William Lane. The Kalam Cosmological Argument. (London, U.K.: 

Macmillan Press, 1979), pp. 63-153.

3 Barnett, Lincoln. The Universe and Dr. Einstein. (New York: William 

Sloane Associates, 1948), p. 106.

4 Ross, Hugh, The Creator and the Cosmos. (Colorado Springs, CO.: 

Navpress, 1993), p. 134.

5 Douglas, A. Vibert, "Forty Minutes with Einstein," Journal of the 

Royal Astronomical Society of Canada 50 (1956), p. 106.

6 Einstein, Albert. Out of My Later Years. (New York: Philosophical 

Library, 1950) pp. 27-28.

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