Darkness Visible: Shedding New Light on Black Holes
World Science Festival・89 minutes read
Black holes are extreme objects in the universe, akin to dividing by zero mathematically, with escape velocity on Earth at 11.2 km/s. Research aims to test Einstein's theory of gravity at the black hole's edge, analyzing data from the Event Horizon Telescope for release in early 2019.
Insights
- Einstein never actually said that black holes occur when God divides by zero, debunking a popular misattribution.
- Escape velocity is the speed needed for an object to break free from a planet's gravitational pull, varying based on the planet's mass.
- Research using the Event Horizon Telescope aims to challenge Einstein's theory of general relativity at the edge of a black hole, necessitating meticulous data analysis and calibration for publication.
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Recent questions
What is escape velocity?
The escape velocity is the speed required for an object to break free from a planet's gravitational pull. On Earth, this velocity is approximately 11.2 km/s. The escape velocity increases with the mass of the planet, making it harder for objects to overcome gravity and leave the planet's surface.
Who coined the term "black hole"?
The term "black hole" was coined by John Wheeler at the Goddard Institute of Space Studies. It refers to extreme physical objects in the universe where gravity is so intense that even light cannot escape beyond the event horizon, rendering them invisible or "black."
How are black holes observed?
Black holes are observed using various methods, including tracking stars' motion to confirm their presence at the galaxy's center. Radio waves are used to study their effects on the environment, revealing light orbits around the black hole and its silhouette. The Event Horizon Telescope combines data from multiple radio telescopes worldwide to create a virtual telescope the size of the Earth, capturing the most precise images of black holes.
What is the significance of gravitational waves?
Gravitational waves, predicted by Einstein's theory of general relativity, were confirmed in 2015 by the LIGO scientific collaboration. These waves are ripples in space-time caused by extreme cosmic events like black hole collisions. They provide a new way to observe the universe and test theories of gravity in extreme environments.
What is the information puzzle in black holes?
The information puzzle in black holes arises from the loss of information when a black hole evaporates, leading to uncertainty about the original data. This dilemma has prompted reevaluations of quantum mechanics and theories about where information is stored in black holes. Resolving this puzzle is crucial for understanding the nature of black holes and potentially the origins of the universe.