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Age Of The Universe Essay Research Paper

Age Of The Universe Essay, Research Paper


The Age of the Universe


INTRODUCTION:


The goal of the project is to find the age of the universe according to the theory


that there were equal amounts of the two uranium isotopes U235 and U238 at


the time of the Big Bang. At present, there are 137.7 U238 atoms for each atom


of U235. We know that the half-life of U235 is 0.71 billion years, and the


half-life of U238 is 4.51 billion years, we used this information to determine the


age of the universe. We started by looking at the problem mathematically and


then after figuring out the age of the universe with the above information. We


proceeded to look for other sources of information about the age of the universe


with supporting data. The two largest sources that were found were a Seattle


University professor and a theory proposed by Edwin Hubble.


CALCULATIONS


Using the information above, we


Y238(t) = Y238(0)ekt = No ekt Where No ekt is initial amount presumed equal


for both isotopes.


Y238(0) is the amount at Big Bang.


Using the half-life formula of k = -ln2/T1. Where T1 is 4.51 in billion of years.


Y235(t) = Y235(0)ekt = No ekt


Y235(0) is the amount at Big Bang.


Using the half-life formula of k2 = -ln2/T2. Where T2 is 0.71 in billions of years.


Given these equations, they hypothesis of the problem is states that


Y235(tnow) 1


Y238(tnow) = 137.7


Y238(tnow)


Y235(tnow) = 137.7


So Y238(tnow) = Y238(0) ekt = No ek2tnow = etnow(k2-K1) = 137.7


Y235(tnow) Y235(0) ekt Noek1tnow


Given that tnow cancels out for both U235 and U238 we are left with the


equation of:


tnow ( -ln2 + -ln2) = 137.7


4.51 0.71


tnow ( .82257) = ln(137.7)


tnow (.82257) = 4.92508


solving for tnow:


tnow = 5.987 billion years.


So this theory estimates the age of the universe to roughly 6 billion years old.


COUNTERING THEORIES:


HUBBLE THEORY


In 1929, Edwin Hubble decided that because the light coming from most galaxies


was redshifted.


(The apparent change in wavelength of sound or light caused by the motion of


the source, observer or both. Waves emitted by a moving object as received by


an observer will be blueshifted (compressed) if approaching, redshifted


(elongated) if receding. It occurs both in sound and light. How much the


frequency changes depend on how fast the object is moving toward or away


from the receiver.)


Hubble concluded that the universe must be expanding after exploding from an


infinitesimal volume of super hot, super dense concentration of matter and


energy. The explosion is called the big bang, which propelled matter in all


directions and at all speeds. According to the big bang theory, the farther away


an object is from us, the more redshifted its light. Also, a greater redshift means


the object is moving away faster than objects with less redshift. In Designs and


Origins in Astronomy, Mulfinger explains the redshift technique for measuring


distances to distant galaxies. If the universe is not expanding, this cannot be true


and the redshift must be due to other causes. An astronomer can tell how old the


universe is by the rate of expansion. Cowen in 1994, clarifies that if the redshift is


due to something other than expansion, nothing can be said about the universe’s


age.


As we shall discuss further in connection with the big bang, there is strong


evidence that the Universe has not always existed, but instead came into being a


finite amount of time ago. There are several measures of the age of the Universe.


Let us discuss two: (1) the age of globular clusters and (2) the inverse of the


Hubble constant.


Globular Clusters


As a counter to the mathematical theory, globular clusters provide a measure of


the age of the cluster. A cluster is a system of galaxies containing from a few to a


few thousand-member galaxies, which are all gravitationally bound to each other.


Thus, the age of such clusters place a limit on the age of the Universe, for it must


be at least as old as the objects that it contains. Such estimates typically yield


ages in the range 14-18 billion years


Hubble Time


The inverse of the Hubble constant H has the units of time because the Hubble


law is


v = H d


where v is the velocity of recession, H is the Hubble constant, and d is the


distance. Thus, from this equation, we have that 1/H = d/v. but d/v is distance


divided by velocity, which is time (e.g., if I travel 180 miles at 60 miles/hour, the


time required is t = d/v = 180/60 = 3 hours).


Thus, the Hubble time T is just the inverse of the Hubble Constant:


T = 1 / H


Taking a value of H = 20 km/s/Mly (where Mly means mega-light years), where


all the factors are necessary to convert the time units to years (Cowen, 1994).


The physical interpretation of the Hubble time is that it gives the ti

me for the


Universe to run backwards to the Big Bang if the expansion rate (the Hubble


“constant”) were constant. Thus, it is a measure of the age of the Universe. The


Hubble “constant” actually isn’t constant, so the Hubble time is really only a rough


estimate of the age of the Universe.


Reasonable assumptions for the value of the Hubble constant and the expansion


of the Universe typically yield ages of 10-20 billion years for the age of the


Universe. For example, H near 50 km/s/Mpc gives a larger value for the age of


the Universe (around 16 thousand million years), while a larger value of 80


m/s/Mpc gives a lower value for the age (around 10 thousand million years).


Therefore, we shall take this information, and additional information from other


methods to estimate the age of the Universe that we have not discussed, to


indicate an age of approximately 15 billion years for the Universe.


ASSUMPTIONS:


With the large difference in the time of the 3 different formulas, we are assuming


that at the time of the big bang there were equal amounts of U238 and U235.


Through the natural rate of decay, we are taking the assumption that there was


no immigration of any U235 or U238 into the universe that was not there are the


time of the big bang.


With the possible addition or subtraction of U235 and U238 through a


supernova, this could possibly skew the ratios of U235 and U238 today. David


Thorsell of Seattle University states that assuming that at the time of the big bang


there were equal amounts of U235 and U238 is a very large leap of faith and


that the case is probably not true. Also he states that two isotopes radioactivity


differ from each other due to the difference in their nuclei. Thorsell explains that


the sample of the isotopes have only been taken from earth, which is not a true


representation of the rest of the universe.


The Fate of the Universe


The Universe is currently expanding. One extremely important cosmological


question is whether this expansion will continue forever. As time will tell, this is a


question that does not yet have a definitive answer. Ultimately, this will turn out


to be a question of how much mass is contained in the Universe (Cowen, 1995).


If it is below a critical amount, the Universe will expand forever. If it is above the


critical amount, the expansion will eventually reverse and the Universe will


collapse on itself, leading to what has been termed the big crunch. If it is exactly


equal to the critical amount, the expansion will slow, but will only stop after an


infinite amount of time. Thus, in this case the Universe will expand forever too.


Is the Universe Really That Old?


Many creationists believe that the universe was, well created and that the


universe is only roughly a few thousand years old. They use the following facts to


discredit the notion of an old universe.


“Our sun is gradually shrinking at a steady rate. It is occurring fast enough that, as


little as 50,000 years ago, the sun would have been so large that our oceans


would boil. In far less time in the past (25,000 years or so), all life on earth


would have ceased to exist”. “Computer simulations of the motions of spiral


galaxies show them to be highly unstable; they should completely change their


shape in only a small fraction of the assumed evolutionary age of the universe.


The simplest explanation for the existence of so many spiral galaxies, including


our own Milky Way Galaxy, is that they and the universe are much younger than


has been assumed.”


It seems as though there is scientific data everywhere to prove and disprove any


theory. One theory that I would like to ponder is the “Big Bang”; the foundation


of the “Big Bang” is that nothing imploded from nothing and the outcome was the


universe. Scientist would have to believe this as truth and accept nothing else or


try to prove something different. It resembles believing in God, people are


convinced that God is God and he came from nothing he just was and always


will be. Scientist state that the universe came from nothing and it will forever be


expanding. One question I ask is why, why does the universe expand forever,


and if it came from nothing what is it expanding in? When it expands does it


consume nothing and create something; will the answers/theories ever be


answered? Someday all will be known, however I am sure we will be resting in


our grave when that day comes.


References:


Cowen, R., 1995, “Dating the Cosmos: Hubble Eyes Aging Stars,” Science


News, 148:151.


Cowen, R., 1994, “Searching for Cosmology’s Holy Grail: Hubble telescope


joins a constant battle,” Science News, 146:232-234.


Torsell, David L. Associate Professor of Chemistry, Seattle University, 1999


George Mulfinger, Jr., ed., 1983, Design and Origins in Astronomy, Creation


Research Society Books, Norcross, p. 15 for Sirius, p. 41 for redshift.


http://www.pathlights.com/ce_encyclopedia/03-ss6.htm

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