Relativity situation. Questions.

  • Thread starter Thread starter hedons
  • Start date Start date
  • Tags Tags
    Relativity
hedons
Messages
40
Reaction score
0
Situation:

You have a bomb which will detonate if the input sample on its trigger is of a certain mass (we'll call this the critical mass).

The trigger input sample has a mass equal to 99.99% of the critical mass.

A person takes this device on spaceship which begins to accellerate towards its top speed of 99.9% the speed of light.

Will the bomb detonate?

Thanks,
Glenn
 
Physics news on Phys.org
As long as you do not accelerate too quickly (which creates G-forces) then no, the trigger input sample doesn't change in its own rest frame. Remember, velocity is all relative anyway--even if the bomb is at rest on earth, it is already moving at 99.99% of light speed in some other frame. Also, it should be noted that many physicists don't like to use the concept of "relativistic mass" at all, instead just talking about rest mass (which never changes) and relativistic momentum--see Does mass change with velocity? from the Usenet Physics FAQ.
 
The problem is in considering the mass measuring device (MMD). For someone in motion relative to the bomb, everything in the bomb frame (bomb and MMD) has a momentum equal to:

P = m v \gamma

So the momentum of everything in the bomb frame (relative to the moving frame) is increased by the same factor, so any device which measured mass based on collisions would operate exactly the same as it would in the bomb's rest frame.
 

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 'Question about Parallel Transport'

In this video I can see a person walking around lines of curvature on a sphere with an arrow strapped to his waist. His task is to keep the arrow pointed in the same direction How does he do this ? Does he use a reference point like the stars? (that only move very slowly) If that is how he keeps the arrow pointing in the same direction, is that equivalent to saying that he orients the arrow wrt the 3d space that the sphere is embedded in? So ,although one refers to intrinsic curvature...
View full post »

Similar threads

A A Question on the TOV Limit: Continuous Forces vs. a Discrete Trigger
Replies
10
Views
684
B A thought experiment regarding special relativity
Replies
15
Views
2K
I Apparent Violations of Principle of Relativity?
Replies
2
Views
1K
B Energy, Mass, Speed of Light: Can We Reach It?
Replies
9
Views
2K
I The Mirror Paradox: Exploring Special Relativity Theory
Replies
45
Views
5K
I How Does Special Relativity Affect Perceptions of Simultaneity?
Replies
32
Views
2K
I Twin paradox for (accelerated) dummies?
Replies
36
Views
5K
I Some thoughts about Bell's string paradox alternatives
2
Replies
75
Views
6K
I Acceleration towards c without a reference frame and changes
Replies
36
Views
4K
I Forces and gravitational time dilation
Replies
11
Views
2K

Hot Threads

Recent Insights

Back
Top