Black Holes - WhatsOutThere
... Holes mass is concentrated at one point of singularity. At the Singularity itself the gravity is so strong it crushes the space time out of existence. Depending on the singularities mass, at a certain distance you will need the speed of light to escape. This distance is the black holes horizon which ...
... Holes mass is concentrated at one point of singularity. At the Singularity itself the gravity is so strong it crushes the space time out of existence. Depending on the singularities mass, at a certain distance you will need the speed of light to escape. This distance is the black holes horizon which ...
Special Theory of Relativity
... whatsoever. We would not see the person cross it. • Person moving towards event horizon would see events on earth as occurring at an extremely fast pace…not the same as STOR where you can turn it around. GTOR is different RF’s with different accelerations, not necessarily the same. ...
... whatsoever. We would not see the person cross it. • Person moving towards event horizon would see events on earth as occurring at an extremely fast pace…not the same as STOR where you can turn it around. GTOR is different RF’s with different accelerations, not necessarily the same. ...
Gravitational Waves
... • In order to understand gravitational waves, we must remember that spacetime deals with four dimensions of possible motion: length, width, depth, and time. • Within these four dimensions, gravity allows for the curvature of spacetime. • According to Einstein, objects with large gravitational force ...
... • In order to understand gravitational waves, we must remember that spacetime deals with four dimensions of possible motion: length, width, depth, and time. • Within these four dimensions, gravity allows for the curvature of spacetime. • According to Einstein, objects with large gravitational force ...
Physics 311A Special Relativity
... stress-energy tensor T - not a trivial thing). • Only 6 equations indeed, but (in general) very-very hard equations. Only few special cases have been solved analytically – we’ll see some solutions, including the Schwarzschild metric – in our future lectures. • Numerical Relativity is a branch of p ...
... stress-energy tensor T - not a trivial thing). • Only 6 equations indeed, but (in general) very-very hard equations. Only few special cases have been solved analytically – we’ll see some solutions, including the Schwarzschild metric – in our future lectures. • Numerical Relativity is a branch of p ...
Energy and Mass - Cornell Astronomy
... The rocket accelerates. You feel yourself being pulled “down” at 1 g. You let go of a ball in your hand, and it “falls” to the floor. Why? Because the ship is accelerating “upward,” the ball will be left behind. Compare this to a rocket sitting on Earth Everything is the same! ...
... The rocket accelerates. You feel yourself being pulled “down” at 1 g. You let go of a ball in your hand, and it “falls” to the floor. Why? Because the ship is accelerating “upward,” the ball will be left behind. Compare this to a rocket sitting on Earth Everything is the same! ...
BlackHoles - Montgomery College
... things be dark? • Modern view based on general relativity • Event horizon: point of no return • Near BH, strong distortions of spacetime ...
... things be dark? • Modern view based on general relativity • Event horizon: point of no return • Near BH, strong distortions of spacetime ...
BlackHolesOLD - Montgomery College
... things be dark? • Modern view based on general relativity • Event horizon: point of no return • Near BH, strong distortions of spacetime ...
... things be dark? • Modern view based on general relativity • Event horizon: point of no return • Near BH, strong distortions of spacetime ...
The Mathematics of Star Trek
... An example of this idea has been developed by physicist Miguel Alcubierre, who has shown that mathematically “warp drive” could be possible in the theory of general relativity. According to Alcubierre, a spacetime configuration can be created in which a spacecraft could traverse a distance between t ...
... An example of this idea has been developed by physicist Miguel Alcubierre, who has shown that mathematically “warp drive” could be possible in the theory of general relativity. According to Alcubierre, a spacetime configuration can be created in which a spacecraft could traverse a distance between t ...
Do Black Holes Really Exist?
... bodies fall towards each other would result in their mutual (theoretical) annihilation at r=0, if this limiting distance could be reached. • Whenever a material body or elementary particle reaches the speed the speed of light, it does so only by converting all of its mass into kinetic energy. It is ...
... bodies fall towards each other would result in their mutual (theoretical) annihilation at r=0, if this limiting distance could be reached. • Whenever a material body or elementary particle reaches the speed the speed of light, it does so only by converting all of its mass into kinetic energy. It is ...