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Yes, at high speed it takes longer to change your direction, for example.Yes, at high speed it takes longer to change your direction, for example.Yes, at high speed it takes longer to change your direction, for example.Yes, at high speed it takes longer to change your direction, for example.
No. A velocity indicates a speed and direction. An acceleration is a change in speed or direction.
A longer pendulum has a longer period. A more massive pendulum has a longer period.
The time does affect the distance traveled because the longer you allow something to go, the farther its going to go. the other way around would be the longer you let it to, the longer its going to take. So time DOES affect the distance traveled.
A useful analogy in explaining the refraction of light would be to imagine a marching band as they march from pavement (a fast medium) into mud (a slower medium) The marchers on the side that runs into the mud first will slow down first. This causes the whole band to pivot slightly toward the normal (make a smaller angle from the normal). I borrowed this from Wikipedia. This is how I think of it but I couldn't think of how to say this as well as the above statement.
YES!
Yes, at high speed it takes longer to change your direction, for example.Yes, at high speed it takes longer to change your direction, for example.Yes, at high speed it takes longer to change your direction, for example.Yes, at high speed it takes longer to change your direction, for example.
Actually, it's just like on land: the longer the vessel, the longer it takes to execute a turn.
NO mars has longer years so it has longer orbit and traveling
No. If the speed varies, the body accelerates, and velocity cannot be constant.
. Longer, and a period that is longer
Exactly the same as the change in the sun's position from noon to sunset affects them ... they stay exactly opposite the direction of the sun, but they get longer.
Because the river water is no longer flowing downhill, the water slows down.
Quite a bit is different. The gear is different, the skis are straight, as opposed to downhill skis being curved (the curve makes it easier to turn on a downhill slope), the boots in cross country are not stationary in the bindings, as downhill boots are, instead you can move the heels, and the poles used in cross country are longer. Also, the slopes are not nearly as steep as in downhill skiing.
Not the appearance, but it actually kinda punishes you for "time traveling" and makes you wait longer.
Need longer stopping distance.
Trains made it easier for traveling longer distances.