acceleration, due to a force the moving body is affected by.
SUM[Forces] = mass * acceleration --> change in speed.
(final velocity-starting velocity) divided by the time taken for the change in velocity to take place.
Any force will cause change in velocity if it isn't canceled by an equal, opposite force.
That is "force".
A force acting on a body causes acceleration. Acceleration is measure of the rate of change in the object's velocity. As its velocity changes, its momentum, which is the product of its mass and velocity, will change.
Acceleration is not a change in speed, but a change in velocity. Velocity is, unlike speed, a vector, and so as the direction of velocity changes there must be an acceleration to cause that change.
Any force will cause change in velocity if it isn't canceled by an equal, opposite force.
Any force will cause a change in velocity if it's not canceled by an equal opposite force.
The cruise control, since it affects the accelerator, can also cause a change in velocity.
(final velocity-starting velocity) divided by the time taken for the change in velocity to take place.
Any force will cause change in velocity if it isn't canceled by an equal, opposite force.
Usually by changing the velocity.
That is "force".
A force acting on a body causes acceleration. Acceleration is measure of the rate of change in the object's velocity. As its velocity changes, its momentum, which is the product of its mass and velocity, will change.
A force causes an acceleration. That implies that it will change: * The velocity, and * The momentum.
Acceleration is not a change in speed, but a change in velocity. Velocity is, unlike speed, a vector, and so as the direction of velocity changes there must be an acceleration to cause that change.
In all cases acceleration.
A basic physics answer for this is that a net force (or unbalanced force) will cause an object to accelerate, that is, cause the object to change its speed and/or direction.