Different weights and traveling in opposite directions.
Different weights and traveling in opposite directions.
Yes The equation for momentum is mass x velocity So if you increase velocity the momentum increases
That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.
Nope... everything is travelling at the same speed,
If it takes an object a certain amount of time to travel a certain distance, but it is travelling at different speeds at different times, you can treat it as though it was travelling at the same speed all the time, and then just divide distance by time to get speed (for example, in miles per hour).
They are all orbiting the Sun, "at" the same time.But they don't complete their individual orbits "in" the same time.This is because they are ...* different sizes; * different distances from the Sun; * travelling at different speeds.
If both balls are travelling at 30m/s, then they have identical speeds, and neither is travelling faster.
An object with more momentum will have more inertia. Inertia is the ability to resist a change in force; objects with higher masses and higher speeds will have greater inertia. Speed * mass = momentum
That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.
yes this can be done!
Miles is distance and day is time so one cannot be converted into another. If you are asking how many days it would take to travel 1338 miles, that would depend on what way you were travelling. So if you were flying you would do it a lot faster than if you were walking. Different people walk at different speeds or drive at different speeds or fly at different speeds etc. so it is impossible to answer.
The momentum of the bullet is equal and opposite to the momentum of the gun. Momentum = mv. Bullet =mbvb Gun = mgvg These are equal, with their speeds in opposite directions. mbvb = mgvg vg = vb x mb/mg = vb x (60/5000) = 0.012 vb The recoil speed of the gun is 0.012 the muzzle speed of the bullet. The question says vb is "500ms", which is unclear. If it is meant to indicate "500 meters per second", then the recoil speed is (500 x .012) = 6 m/s.