I recall that an object's mass increases as the the object travels faster through space.
Question:
Imagine observer A is stationary, and observer B & an object move near light speed. When observer A and B measure the mass of the object, do they measure diffenrent masses?
Last question (promise)
Imagine this situation.
There is a car race. The car we are interested in travels at 90% lightspeed. To this car is attached a camera so we kinda have a view of what the driver sees (like in a car race on TV). The videa from the camera is broadcast live on TV.
An...
Thnx for all your replies.
I'd like to ask another question to make sure I understand this topic well.
Lets imagine a similar race.
In this race, there are 10 runners. Runner1 runs at 10%lightspeed, Runner2 at 20% of lightspeed, ... Runner9 at 90% of lightspeed, and the 10th runner is...
That is not the point of my question.
Let us say, instead that the runner is traveling at 90% of light speed.
Then the observer observes the runnertaking 1.11 minutes to reach the finish line, while light took 1 minute.
On the other hand, in the runner's point of view, he reaches the...
I found it interesting when i learned that no matter how fast you are traveling through space, you will alwys measure light to be traveling at the same speed. Then I thought of something:
What would happen in this situation.
There is a race. The two racers are me, wearing my "light speed"...