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BLACK HOLE SURVIVAL GUIDE by Janna Levin

BLACK HOLE SURVIVAL GUIDE

by Janna Levin ; illustrated by Lia Halloran

Pub Date: Nov. 10th, 2020
ISBN: 978-0-525-65822-1
Publisher: Knopf

A short, lively account of one of the oddest and most intriguing topics in astrophysics.

Levin, a Guggenheim fellow and professor of physics and astronomy at Barnard College, knows her subject well, but her goal is appreciation as much as education, and there is much to admire in a black hole. Before Einstein, writes the author, scientists believed that the force of gravity influenced the speed of moving objects. They also knew that light always travels at exactly the speed of light. This combination made no sense until 1915, when Einstein explained that gravity is not a force but a curving of space (really, space-time) near a body of matter. The more massive the matter, the greater it curves the space in its vicinity; other bodies that approach appear to bend or change speed when they are merely moving forward through distorted space-time. Einstein’s equations indicated that, above a certain mass, space-time would curve enough to double back on itself and disappear, but this was considered a mathematical curiosity until the 1960s, when objects that did just that began turning up: black holes. Light cannot emerge from a black hole, but it is not invisible. Large holes attract crowds of orbiting stars whose density produces frictional heating and intense radiation. No writer, Levin included, can contain their fascination with the event horizon, the boundary of the black hole where space-time doubles back. Nothing inside the event horizon, matter or radiation, can leave, and anything that enters is lost forever. Time slows near the horizon and then stops. The author’s discussions of the science behind her subject will enlighten those who have read similar books, perhaps the best being Marcia Bartusiak’s Black Hole (2015). Readers coming to black holes for the first time will share Levin’s wonder but may struggle with some of her explanations.

An enthusiastic appreciation of a spectacular astrophysical entity.