A FINE TUNED UNIVERSE - A FINE TUNED UNIVERSE 2

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Universal Acceptance of Fine Tuning

Besides the BBC video, the scientific establishment’s most prestigious journals, and its most famous physicists and cosmologists, have all gone on record as recognizing the objective truth of the fine-tuning. The August ’97 issue of “Science” (the most prestigious peer-reviewed scientific journal in the United States) featured an article entitled “Science and God: A Warming Trend?” Here is an excerpt:

"The fact that the universe exhibits many features that foster organic life — such as precisely those physical constants that result in planets and long-lived stars — also has led some scientists to speculate that some divine influence may be present."

In his best-selling book, “A Brief History of Time”, Stephen Hawking (perhaps the world’s most famous cosmologist) refers to the phenomenon as “remarkable.”

"The remarkable fact is that the values of these numbers (i.e. the constants of physics) seem to have been very finely adjusted to make possible the development of life”. “For example,” Hawking writes, “if the electric charge of the electron had been only slightly different, stars would have been unable to burn hydrogen and helium, or else they would not have exploded. It seems clear that there are relatively few ranges of values for the numbers (for the constants) that would allow for development of any form of intelligent life. Most sets of values would give rise to universes that, although they might be very beautiful, would contain no one able to wonder at that beauty."

Hawking then goes on to say that he can appreciate taking this as possible evidence of “a divine purpose in Creation and the choice of the laws of science (by God)” (ibid. p. 125).

Dr. Gerald Schroeder, author of “Genesis and the Big Bang” and “The Science of Life” was formerly with the M.I.T. physics department. He adds the following examples:

"Professor Steven Weinberg, a Nobel laureate in high energy physics (a field of science that deals with the very early universe), writing in the journal “Scientific American”, reflects on: "how surprising it is that the laws of nature and the initial conditions of the universe should allow for the existence of beings who could observe it. Life as we know it would be impossible if any one of several physical quantities had slightly different values."

Although Weinberg is a self-described agnostic, he cannot but be astounded by the extent of the fine-tuning. He goes on to describe how a beryllium isotope having the minuscule half life of 0.0000000000000001 seconds must find and absorb a helium nucleus in that split of time before decaying. This occurs only because of a totally unexpected, exquisitely precise, energy match between the two nuclei. If this did not occur there would be none of the heavier elements. No carbon, no nitrogen, no life. Our universe would be composed of hydrogen and helium. But this is not the end of Professor Weinberg’s wonder at our well-tuned universe. He continues:

"One constant does seem to require an incredible fine-tuning — The existence of life of any kind seems to require a cancellation between different contributions to the vacuum energy, accurate to about 120 decimal places."

This means that if the energies of the Big Bang were, in arbitrary units, not:

100000000000000000000000000000000000000000000000000000000000000

000000000000000000000000000000000000000000000000000000000,

but instead:

100000000000000000000000000000000000000000000000000000000000000

000000000000000000000000000000000000000000000000000000001,

there would be no life of any sort in the entire universe because as Weinberg states:

"The universe either would go through a complete cycle of expansion and contraction before life could arise, or would expand so rapidly that no galaxies or stars could form."

Michael Turner, the widely quoted astrophysicist at the University of Chicago and Fermilab, describes the fine-tuning of the universe with a simile:

"The precision is as if one could throw a dart across the entire universe and hit a bulls eye one millimeter in diameter on the other side."

Roger Penrose, the Rouse Ball Professor of Mathematics at the University of Oxford, discovers that the likelihood of the universe having usable energy (low entropy) at the creation is even more astounding, namely, an accuracy of one part out of ten to the power of ten to the power of 123. "This is an extraordinary figure. One could not possibly even write the number down in full, in our ordinary denary (power of ten) notation: it would be one followed by ten to the power of 123 successive zeros!" (That is a million billion billion billion billion billion billion billion billion billion billion billion billion billion zeros.)

Penrose continues,

"Even if we were to write a zero on each separate proton and on each separate neutron in the entire universe — and we could throw in all the other particles as well for good measure — we should fall far short of writing down the figure needed. The precision needed to set the universe on its course is to be in no way inferior to all that extraordinary precision that we have already become accustomed to in the superb dynamical equations (Newton’s, Maxwell’s, Einstein’s) which govern the behavior of things from moment to moment."

Cosmologists debate whether the space-time continuum is finite or infinite, bounded or unbounded. In all scenarios, the fine-tuning remains the same.

It is appropriate to complete this section on “fine tuning” with the eloquent words of Professor John Wheeler:

"To my mind, there must be at the bottom of it all, not an utterly simple equation, but an utterly simple IDEA. And to me that idea, when we finally discover it, will be so compelling, and so inevitable, so beautiful, we will all say to each other, “How could it have ever been otherwise?”

Read more at: http://geraldschroeder.com/wordpress/?page_id=49

The opinions expressed in this article are not necessarily those of Noahide Nations

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