A moving object being accelerated will show a change in its velocity (it may move faster, or slower, or experience a change in direction).
A stationary object will respond to acceleration only if there is no other force acting to prevent its response. For example: gravity is a constant force of acceleration, but objects cannot move toward the center of the earth if they are being blocked by another object.
if its velocity is increasing or decreasing
Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.
No. If the forces on an object are unbalanced, that means their sum is not zero, and there is a net force on the object. Since there is a net force on it, the object is accelerated, which is another way of saying that its velocity changes.
No. A velocity indicates a speed and direction. An acceleration is a change in speed or direction.
When an object is moving with different velocity with respect to time then the object is in acceleration or decceleration mode. If the rate of change of velocity is positive then it is said to be accelerated, if its negative it is said to be deaccelerated.
An object can only accelerate if its velocity changes.
Accelerated body
yes
if its velocity is increasing or decreasing
what velocity is a taint by an object that is accelerated at .3om/s for the distance of 54m if its initial velocity is 50m/s
That's called "accelerated motion".
You would say that the object in motion is accelerating. Or you can say that the object's velocity is increasing.
Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.
No. Acceleration is any change of velocity.But its speed can be constant.
[object Object]
Any object on which an unbalance force is acting will accelerate - i.e., its velocity will change.
The object is accelerated in the direction of the net (or resultant) force.