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> so c relative to what?

it's either "relative to any observer." or "relative to any inertial reference frame". no matter where you go (on the ship, on a planet you pass by, on another ship) you will never see the apple travel as fast as the photons coming out of your flashlight. Depending on where the observer is, they will see the apple accelerate to 0.5c (if they are aboard the ship) or they will see it gain mass (or rather, see you throw it more slowly as if it had gained mass), contract in the direction it's thrown, and slow down (due to time dilation...relative to the moving frame).

The case I don't know how to answer is two apples thrown at each other, each with a speed greater than 0.5c.




If you want to explore/understand the velocities of these relativistic apples, look into the Velocity-addition formula[1].

1: https://en.wikipedia.org/wiki/Velocity-addition_formula




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