Two ways:
If the change in velocity is the result of hitting something, use the Momentum Equation.
If the change in velocity is the result of applying a force, use the Impulse Equation. You probably mean this equation, which is:
FT = m(Vf - Vo)
Or,
An object of mass "m" will change from velocity "Vo" to velocity "Vf" if the force "F" is applied for "T" seconds.
A change in velocity is known as acceleration. Acceleration, in meters per second squared, is equal to velocity, in meters per second, divided by time, in seconds.
Distance over time ... Plus - you need a direction.
The formula for a change in velocity is dV/dt, and this is called acceleration.
a = dv/dt (change in velocity divided by change in time)
accelaration is defined as the rate of change of velocity. Therefore the formula for acceleration is a =(Final Velocity - Initial Velocity) divide by the (change in time)
acceleration = change in velocity / time
Accelaration= change in velocity/time taken OR Acceleration=final velocity- initial velocity/time taken
Rate of speed is acceleration with respect to time, therefore the formula is (dv/dt), meaning (change in velocity/change in time). Remember, speed is just the magnitude of the velocity vector.
The formula for velocity is velocity = distance / time. It represents the rate at which an object changes its position.
a = dv/dt (change in velocity divided by change in time)
Change in velocity / time
There are many formulas for acceleration, but the most basic one is: acceleration = change in velocity / time taken for velocity change
accelaration is defined as the rate of change of velocity. Therefore the formula for acceleration is a =(Final Velocity - Initial Velocity) divide by the (change in time)
acceleration = change in velocity / time
Accelaration= change in velocity/time taken OR Acceleration=final velocity- initial velocity/time taken
Rate of speed is acceleration with respect to time, therefore the formula is (dv/dt), meaning (change in velocity/change in time). Remember, speed is just the magnitude of the velocity vector.
Net acceleration = (change in velocity) divided by (time for the change)
The formula for velocity is ds/dt where s (which is a function of time) is the position vector of the object at time t, and d/dt represents the derivative with regard to time.The formula for average velocity is (final position vector - starting position vector)/time.
To find acceleration, it is the change in velocity over the change in time. (Vf-Vi)/t. where: Vf is final velocity, Vi is initial velocity, and t is the time interval.
a=change in velocity time