| The Physical Basis of Tired Light, Revised Edition Contributor(s): McKinney III, Albert W. (Author) |
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ISBN: 1544804342 ISBN-13: 9781544804347 Publisher: Createspace Independent Publishing Platform OUR PRICE: $6.65 Product Type: Paperback - Other Formats Published: March 2017 |
| Additional Information |
| BISAC Categories: - Science | Physics - Astrophysics |
| Physical Information: 0.1" H x 5.98" W x 9.02" (0.17 lbs) 46 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: Over most of the last century, astronomers have collected an amazing amount of information about the stars and galaxies that surround us. This information has proved troublesome, in that it has led to such weird concepts as an expanding universe and the Big Bang. It has also led to the conclusion that the stars in remote galaxies move so fast that gravity cannot hold them together, hence the need for dark matter and/or dark energy. Is our own galaxy, the Milky Way, unique in the universe, in the sense that it does not require dark matter or dark energy to hold it together? That seems absurd. Yet is it reasonable to question the accuracy of such a huge amount of astronomical data? Yes And it is easy to point to the culprit It is the redshift z. The main reason that remote stellar velocities seem high is that their redshift values are too high. Many years ago, Fritz Zwicky pointed out that it would seem that light lost energy as it passed through space. This idea was later termed tired light. But Zwicky was unable to explain why that should happen. This book presents a reason that justifies Zwicky's idea. This leads to a formula for calculating a better value of the redshift z. Using data on 84 clusters published in 1972 by Allan Sandage, this formula reduced their redshift values to near zero amounts, except for very distant star clusters. The author asserts that these results confirm the reasonableness of the formula. |