You use the information you're given, along with the equations and formulas
you know that express some kind of relationship between the information
you're given and the initial and final velocity.
To find acceleration you subtract initial velocity from final velocity and divide it by time.
Average acceleration = final velocity - initial velocity/ final time - initial timeOr for short:Aave=Vf-Vi/Tf-TiHope that helps :)
A change in velocity can be effected only by acceleration. Therefore, if the acceleration is zero, there is no change, so final velocity equals initial velocity.
Yes, of course.
If you take initial velocity(Vi) to be zero and the final velocity (Vo) to be a known. Puting the knowns into a triganonomical equation and solving for the value of D would give an answer
the formula for finding acceleration is final velocity, minus initial velocity, all over time. So if you have the acceleration and initial speed, which is equal to the initial velocity, you must also have time in order to find the final velocity. Once you have the time, you multiply it by the acceleration. That product gives you the difference of the final velocity and initial velocity, so then you just add the initial velocity to the product to find the final velocity.
The final velocity is (the initial velocity) plus (the acceleration multiplied by the time).
Kinematics. Final velocity squared = initial velocity squared + 2(gravitational acceleration)(displacement)
You subtract the initial velocity from the final velocity and divide by the time interval.
Yes.
v = 2s/t - u where u=initial velocity, v=final velocity, s = distance and t = time
Without distance, you have to know time, initial velocity, and acceleration, in order to find final velocity.
To find acceleration you subtract initial velocity from final velocity and divide it by time.
Well, (final velocity) = (initial velocity) + (acceleration x time)
If the velocity is uniform, then the final velocity and the initial velocity are the same. Perhaps you meant to say uniform acceleration. In any event, the question needs to be stated more precisely.
You can't.You only know what half the sum of (initial + final) is, (it's the average), but you don't know what the initial and final are.
Final velocity = (Initial velocity) + (time)(acceleration)