Acceleration increases the velocity.
There are two physics formulas that you can use to see more how they interact. The first is a formula for determining your current velocity at a given moment t, knowing your initial velocity and your current acceleration.
v = v0 + at
(v0 is v-naught. The zero is usually written as a subscript.)
You can solve this equation for a to get a formula for acceleration as well.
a = (v-v0)/t
So, basically, at any given interval t, the acceleration has been added onto the current velocity that many times.
Acceleration is the process of changing the magnitude or the direction of velocity, or both.
Acceleration is the rate at which the size of velocity changes
and the direction of the change.
Acceleration is a change in velocity.
velocity = displacement / time taken
Acceleration is the rate of change of the magnitude of velocity and the direction in which the velocity changes.
Momentum=mass*velocity
The lighter the weight, the greater the initial velocity of shortening; inverse relationship.
Regarding their magnitudes . . . Acceleration is the time rate of change of velocity. Regarding their directions . . . There's not necessarily any relationship between the two.
velocity = displacement / time taken
sorry '=
Acceleration is the rate of change of the magnitude of velocity and the direction in which the velocity changes.
Acceleration is the rate at which velocity changes and the direction of the change.
Momentum=mass*velocity
The lighter the weight, the greater the initial velocity of shortening; inverse relationship.
Regarding their magnitudes . . . Acceleration is the time rate of change of velocity. Regarding their directions . . . There's not necessarily any relationship between the two.
The velocity of a wave is the product of frequency and wavelength,such that: V=fλ
Centripetal force is = mass * velocity square divided by radius
accleration is the speed. Velocity is when you know the speed of an object and its direction.
describe and explain the relationship between the diameter of vessels and the velocity of blood
Velocity equals frequency times wavelength