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Two spacecraft of equal rest length pass very close to each other, but disagree on whether a laser shot hits or misses. A spacetime diagram is used to resolve the disagreement.
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F’ F Spacecraft of equal rest length pass very, very close to each other as they travel in opposite directions at a relative speed of 3/5 c.
F’ F Ali, the captain of ship F has a laser cannon at his tail that he plans to fire at the nose of Brenda’s F’ ship when their nose is lined up with her tail.
F’ F It is only supposed to be a warning shot across nose and he figures it won’t hit because her F’ length is contracted.
F’ F However, his co-pilot says that the shot will hit because Brenda sees that the F length is shortened.
We’ll draw it on a spacetime diagram. Ali’s rocket is 100 light-nanoseconds long so label the axes with a scale of five squares for fifty nanoseconds for the rest frame, F.
200 120 150 80 100 120 80 50 50 100 150 v = 3/5 c
Let Ali’s frame be the ‘rest’ frame F. Put Ali’s nose at the origin. Draw the tail at 100 ns on the x axis. Draw the position of Ali’s ship at t = -50, 0, 50, 100 and 150 ns.
200 120 150 100 120 50 50 100 150 v = 3/5 c
Put Brenda’s tail at the origin. Draw her rocket at that time.Draw the position of her ship at t’ = -80, -40, 0, 40 and 80 ns.
200 120 150 100 120 50 50 100 150 v = 3/5 c
You can see the nose of Ali’s ship and the tail of Brenda’s ship at the same spacetime point, which is the origin of both axes. At this time, t=0, the laser cannon at Ali’s tail is fired. Mark this event with a dot.
200 120 150 100 120 50 50 100 150 v = 3/5 c
You can’t show the path of the laser shot on the diagram because it moves • too fast • too slow • parallel to the page • perpendicular to the page
F’ F You can’t show the path of the laser shot on the diagram because it moves into another dimension that is perpendicular to the page. t y x
However, the ships are very close and the shot will cross the distance in almost no time. The important question is, is the nose of Brenda’s ship nearby when the shot is fired?
200 120 150 100 120 50 50 100 150 v = 3/5 c
200 120 150 100 120 This line marks all the positions ever occupied by the nose of Brenda’s ship. It doesn’t come near the cannon. 50 50 100 150 v = 3/5 c
200 120 150 100 120 50 50 100 150 v = 3/5 c
200 120 150 100 120 50 At t = 0 ns, Ali sees the nose of Brenda’s ship at x = 80 ns. 50 100 150 v = 3/5 c
200 120 150 100 120 50 50 100 150 v = 3/5 c
200 120 150 100 120 50 At t’ = 0 ns, Brenda says her nose is at x’ = 100 ns. 50 100 150 v = 3/5 c
When does Brenda say that her nose was closest to the laser cannon?
200 At t’ = -32 ns, Brenda sees her nose beside the cannon, well after the cannon was fired. 120 150 100 120 50 50 100 150 v = 3/5 c
Ali and Brenda disagree because of a difference in simultaneity. The simultaneity of two events depends on the frame of reference .
200 120 150 100 120 50 50 100 150 v = 3/5 c
200 120 150 100 120 50 The shot is fired when the nose and tail are lined up. The ships are in the position shown. 50 100 150 v = 3/5 c
200 120 150 100 120 50 50 100 150 v = 3/5 c
200 At t’ = 0, Ali’s nose is next to Brenda’s tail. At t’ = - 32 ns, Ali’s cannon is next to Brenda’s tail. At t’ = - 80 ns, the two ships are in this position and the shot is fired. 120 150 100 120 50 50 100 150 v = 3/5 c
200 120 150 The shot does not occur at the same time as the tail and nose being lined up. The events are not simultaneous. 100 120 50 50 100 150 v = 3/5 c
Not everything is relative.They both agree that the shot misses. They just don’t agree as to why.
