KingNothing
Mar16-04, 01:13 PM
Two spaceships approaching each other, each travelling at 90% the speed of light relative to some third observer between them, do not perceive each other as approaching at 90 + 90 = 180% the speed of light; instead they each perceive the other as approaching at slightly less than 99.5% the speed of light.
Now, I got this from a very reliable source, an encyclopedia to be precise, so I know it's correct and goes according to the Einstein velocity addition formula. My question is, why?
Question 1: Is it because a person can never "perceive" something coming at them faster than the speed of light?
Question 2: Assuming there are people in these theoretical ships, looking at eachother, and the ships are traveling directly at eachother...Would the two ships crash before a person in one of the ships 'sees' the other ship hitting it (say, 1 cm away)?
Sorry if these questions are unclear, I don't have a big vocabulary of physics terms.
Now, I got this from a very reliable source, an encyclopedia to be precise, so I know it's correct and goes according to the Einstein velocity addition formula. My question is, why?
Question 1: Is it because a person can never "perceive" something coming at them faster than the speed of light?
Question 2: Assuming there are people in these theoretical ships, looking at eachother, and the ships are traveling directly at eachother...Would the two ships crash before a person in one of the ships 'sees' the other ship hitting it (say, 1 cm away)?
Sorry if these questions are unclear, I don't have a big vocabulary of physics terms.