Prove that the volume of a cube that moves with a velocity vin

the parallel direction to one of the edges is:

, being V0 the volume of the cubemeasured from a

reference frame in which the cube doesn'tmove.

Question

Physics

Harper Braun

5 June, 22:24

Prove that the volume of a cube that moves with a velocity vin

the parallel direction to one of the edges is:

, being V0 the volume of the cubemeasured from a

reference frame in which the cube doesn'tmove.

+3

Answers (1)

Know the Answer?

Nick Dalton · Answer 1

Proof is given below

Explanation:

The length contraction is given by Δx = Δx' * √ (1 - v² / c²)

where Δx' is the proper length and is measured in the frame where the object is at rest

Since the y' and z' axes are perpendicular to the direction of motion there is no contraction

So if you let V0 = Δy' * Δz' * Δx'

and V = Δy * Δz * Δx = Δy' * Δz' * Δx

Then

V = V0 * √ (1 - v² / c²)

Prove that the volume of a cube that moves with a velocity vinthe parallel direction to one of the edges is:, being V0 the volume of the cubemeasured from areference frame in which the cube doesn'tmove.

Prove that the volume of a cube that moves with a velocity vin

the parallel direction to one of the edges is:

, being V0 the volume of the cubemeasured from a

reference frame in which the cube doesn'tmove.