The Birth of Time: How Astronomers Measured the Age of the Universe

Features

• Cover Type: Paperback with 256 pages
• Published by: Yale University Press March 1, 2001
• Written in: English
• ISBN 10 Number: 0300089147
• ISBN 13 Number: 978-0300089141
• Book Dimensions: 7.8 x 5 x 0.7 inches
• Weighs: 7.5 ounces

Reader Reviews
Questions about the age of the universe are tightly coupled to understanding the size and structure of the universe. John Gribbin, a research astronomer as well as a popular writer, tells the story of how astronomers and physicists gradually recognized that the universe was both very large and very old. We all know today that the universe is immense, that the Milky Way is one of many galaxies, the age of the universe is measured in billions of years, and it began with a big bang. This fundamental understanding is actually quite new. In 1920 the scientific community was deeply divided over whether the Milky Way was essentially the entire universe or whether other large galaxies existed. The age of the universe was significantly underestimated. The Big Bang Theory was first considered seriously in the 1940s. The Birth of Time is a 200-page detailed look at how this remarkable story unfolded. Gribbin writes well and his explanations are quite lucid. We learn not only about major breakthroughs, but we also explore blind alleys and dead ends. It is an exciting, intriguing story, one that definitely warrants reading. Nonetheless, this book has one major drawback. Gribbin fails to use explanatory drawings or graphs. For example, he describes the Hertzsprung-Russell (H-R) diagram entirely in words. We laboriously read: So in a diagram (a kind of graph) where the brightness of each star (its absolute brightness, after allowing for how far away it is) is plotted against its colour, all hydrogen-burning stars lie along a single band in the diagram, a band which is called the main sequence, running roughly diagonally from top left to bottom right. Likewise, without any diagrams or graphs, or equations, Gribbin discusses parallax measurements, the redshift-distance relation, Hubble's Constant, gravitational lensing, spectral lines, and the Cepheid period-luminosity relation. (There were eight black and white full page astronomical photos that were indeed helpful.) I hope John Gribbin updates his work to include recent findings regarding dark matter and dark energy, and the now highly precise age (13.7 billion years) assigned to the universe. I reviewed the 2000 edition published by Universities Press. Comment | | (Report this)