You can't you need the time and distance (once you have that it's just distance/time).
You can't. Acceleration is change in velocity. If given a constant velocity, the acceleration is zero.
If you have an initial and final velocity and time you can figure it out with this equation, Vf squared=Vi squared1/2a(t squared) If you don't have those you cannot find acceleration. However the acceleration on Earth is a constant -9.81
If there is no acceleration or time given, it is not possible to calculate velocity. Velocity is defined as the rate of change of displacement with respect to time, so without either acceleration or time, there is not enough information to determine the velocity.
You cannot is you only know the acceleration
To calculate the G-force experienced by an object with only the acceleration given, you can use the formula G-force = acceleration / 9.81 m/s^2. Dividing the acceleration value by the acceleration due to gravity (9.81 m/s^2) gives you the G-force experienced by the object.
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.
Acceleration = force(N) / mass(kg)
No, an increase in speed during a given interval of time is called acceleration. Negative acceleration, also known as deceleration, refers to a decrease in speed over time.
No, it's only the acceleration. By (-)ve acceleration ,it means retardation or deceleration..
-- In a reference book or on-line, look up the acceleration of gravity on the surface of that planet. -- Multiply the mass of the object by the acceleration of gravity in the place where the object is. The result is the object's weight in that place.
The expression for average acceleration is given by the change in velocity divided by the time taken for that change. It can be written as: average acceleration (a) = (final velocity - initial velocity) / time.
Yes, acceleration can be calculated when initial velocity, final velocity, and time are given using the formula: ( a = \frac{{v_f - v_i}}{{t}} ), where ( a ) is acceleration, ( v_f ) is final velocity, ( v_i ) is initial velocity, and ( t ) is time.