1 miles per hour = 0.44704 meters per second
-- Take the number of (cubic meters per second) -- Divide the number by 3,600 -- The answer is the number of (cubic meters per second)
93.1 meters per second = 208.258769 mph. Multiply meters per second by 2.24 to get approximate mph. (To get the exact conversion, multiply meters per second by 2.23693629).
9.8
9.8
9.8
-- take the number of meters per second-- divide it by 1,000-- the result is the number of kilometers per second
... approximate acceleration of gravity at the surface of the earth.A better figure to carry around is 9.8 meters per second squared.
so you calculate for one second howmuch meters do you pass and the number that you had is your speed on meters per second
"470 meters per second" is a speed, not an acceleration. Assuming you mean "470 meters per second square", that is the same as a change of 470 meters per second every second. Just multiply by the number of seconds to get the change in speed."470 meters per second" is a speed, not an acceleration. Assuming you mean "470 meters per second square", that is the same as a change of 470 meters per second every second. Just multiply by the number of seconds to get the change in speed."470 meters per second" is a speed, not an acceleration. Assuming you mean "470 meters per second square", that is the same as a change of 470 meters per second every second. Just multiply by the number of seconds to get the change in speed."470 meters per second" is a speed, not an acceleration. Assuming you mean "470 meters per second square", that is the same as a change of 470 meters per second every second. Just multiply by the number of seconds to get the change in speed.
To get meters per minute, you'd multiply meters per second times the number of seconds in a minute which is 60.
Just divide the distance by the time. The answer, of course, is in meters/second (meters per second). If you want to convert this to kilometers per hour, multiply the number of meters/second by 3.6.
The approximate acceleration of a body in freefall near the earths surface due to earths gravitational pull. The object in freefall gains 9.81 meters per second for every second that elapses (ignoring air resistance).