Divide the distance by the time; the quotient is speed.
Without distance, you have to know time, initial velocity, and acceleration, in order to find final velocity.
You can't. The mass is irrelevant to velocity. You need the distance.
You cannot. You must have distance (or displacement). If you know it is from a standing start then accelaration will do.
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Divide the distance by the time; the quotient is speed.
Distance = time * average speed (velocity) Average speed = Distance/time
you measure it
The answer depends on what information you are given.
The answer depends on what information you are given.
You can't you need the time and distance (once you have that it's just distance/time).
Without distance, you have to know time, initial velocity, and acceleration, in order to find final velocity.
To find the acceleration if the time is not given, you will need to know the velocity and the distance. Then, use this equation: d = vt + (1/2)at2 to solve the problem by plugging in your numbers for the distance and the velocity.
If you are only given total distance and total time you cannot. If you are given distance as a function of time, then the first derivative of distance with respect to time, ds/dt, gives the velocity. Evaluate this function at t = 0 for initial velocity. The second derivative, d2s/dt2 gives the acceleration as a function of time.
To find the average speed of an object over a given time, you divide the total distance traveled by the object by the total time taken to cover that distance. Mathematically, average speed = total distance / total time.
The equation that does involve time is.. v² = v₀² + 2ad
You can't. The mass is irrelevant to velocity. You need the distance.