As we know from the Newton's 2nd Law,
F=ma,F=force,m=mass of the body a= acceleration of the body
a=F/m
When F>0 i.e. even a little amount of force is exerted on the body and it is moving even with a little velocity,acceleration cannot be zero because mass is always >0
When a body is rotating in a circular path around an axis.
Zero acceleration means no change in velocity and no force on the zero accelerating body.
Velocity of body and acceleration of body is zero implies body is at rest Acceleration of body is zero implies it is in a state of equilibrium Body in equilibrium can have non zero velocity
The acceleration is zero for a body having constant velocity.
The velocity of the body does not change.
When a body is rotating in a circular path around an axis.
The body is not zero, but the sum of all forces on it is. -- "Uniform velocity" means no acceleration. -- Acceleration is force/mass . -- If acceleration is zero, that's an indication that force must be zero.
Zero acceleration means no change in velocity and no force on the zero accelerating body.
Velocity of body and acceleration of body is zero implies body is at rest Acceleration of body is zero implies it is in a state of equilibrium Body in equilibrium can have non zero velocity
zero
Zero.
The acceleration is zero for a body having constant velocity.
Acceleration becomes zero.
In classical physics, if a force (e.g. the sum of all forces) acts on a body, the body cannot have zero acceleration (unless the body has infinite mass), since a = F/m. The velocity on the other hand may be zero, since a(t) = v'(t).
Acceleration is the CHANGE in velocity; you're assuming CONSTANT velocity. So the acceleration is zero.
Zero
Zero