I Black Hole Creation at Near Light Speed? - Prof. Andrea Ghez

jobyts
Messages
226
Reaction score
60
Yesterday, I attended the following presentation by Prof. Andrea Ghez.

https://www.meetup.com/physicists/events/236886090/?gj=co2&rv=co2

In the Q&A session towards the end, there was a question she fumbled to give a proper answer.

She mentioned that as long as the mass is compressed into within the Schwarzschild radius, any mass could turn into a black hole.
She gave the exact presentation as in .
See between 8:10-9:00.

The question from the audience was, if an object travels at near speed of light, the mass increases, volume reduces. So, will a near light moving object create a black hole?

https://www.quora.com/Relativity-physics-Does-relativistic-mass-have-gravity
says the relativistic mass does have gravity.
 
Physics news on Phys.org
And this, boys and girls, is why we no longer use the concept of "relativistic mass".

Zz.
 
  • Like
Likes Arman777
First of all, any attempt at trying to deal with a black hole mixing concepts of special relativity and "mass based" gravity is doomed. Black holes cannot be described in the flat spacetime of SR, nor is mass the source of spacetime curvature in GR - the stress energy tensor is.

Second, as already mentioned, relativistic mass has been the cause of probably almost as many misunderstandings of SR as the relativity of simultaneity. It is also an archaic concept that is not really used by practicing physicists.
 
  • Like
Likes Chris Miller and Dale

Thread 'I don't see how a black hole's event horizon can be crossed'

OK, so this has bugged me for a while about the equivalence principle and the black hole information paradox. If black holes "evaporate" via Hawking radiation, then they cannot exist forever. So, from my external perspective, watching the person fall in, they slow down, freeze, and redshift to "nothing," but never cross the event horizon. Does the equivalence principle say my perspective is valid? If it does, is it possible that that person really never crossed the event horizon? The...
View full post »

Thread 'Synchronizing clocks in an inertial frame if light is anisotropic'

ASSUMPTIONS 1. Two identical clocks A and B in the same inertial frame are stationary relative to each other a fixed distance L apart. Time passes at the same rate for both. 2. Both clocks are able to send/receive light signals and to write/read the send/receive times into signals. 3. The speed of light is anisotropic. METHOD 1. At time t[A1] and time t[B1], clock A sends a light signal to clock B. The clock B time is unknown to A. 2. Clock B receives the signal from A at time t[B2] and...
View full post »

Thread 'Is the variation of the metric ##\delta g_{\mu\nu}## a tensor?'

From $$0 = \delta(g^{\alpha\mu}g_{\mu\nu}) = g^{\alpha\mu} \delta g_{\mu\nu} + g_{\mu\nu} \delta g^{\alpha\mu}$$ we have $$g^{\alpha\mu} \delta g_{\mu\nu} = -g_{\mu\nu} \delta g^{\alpha\mu} \,\, . $$ Multiply both sides by ##g_{\alpha\beta}## to get $$\delta g_{\beta\nu} = -g_{\alpha\beta} g_{\mu\nu} \delta g^{\alpha\mu} \qquad(*)$$ (This is Dirac's eq. (26.9) in "GTR".) On the other hand, the variation ##\delta g^{\alpha\mu} = \bar{g}^{\alpha\mu} - g^{\alpha\mu}## should be a tensor...
View full post »

Similar threads

I Is Measuring the One-Way Speed of Light Possible Near a Black Hole?
Replies
10
Views
1K
B Can You Become a Black Hole from Approaching Light Speed?
Replies
25
Views
3K
I Black Hole Waterfall Analogy & Light Speed
Replies
15
Views
2K
B Theories about light and time near a black hole
Replies
20
Views
2K
B Speed of light and this Accelerating Rocket scenario
Replies
45
Views
5K
I You can't actually enter a blackhole?
Replies
40
Views
3K
I What Happens When a Planet Nears the Speed of Light Near a Black Hole?
2
Replies
64
Views
5K
B Could Traveling at Near-Light Speed Create Black Holes?
Replies
38
Views
4K
I Escape velocity near a black hole: Newtonian or Special Relativity?
Replies
17
Views
2K
B Can Relativistic Mass Create a Black Hole?
Replies
4
Views
2K

Hot Threads

Recent Insights

Back
Top