Zero relative velocity to another object, sure no problem.
Zero absolute velocity, not possible as there is no absolute reference to compare to.
Yes, it can happen. when the velocity is momentarily zero while an object is changing from moving in the positive direction motion to the negative direction; the object obviously will stop at one point, but will still have a constant acceleration.
Velocity. When an object is standing still at position p, the velocity dp/dt = 0 is zero.
An object which is not changing in it's position in space. In simply it is at rest
Yes, of course; but it will only have zero velocity for one infinitesimal moment. Check your calculus text.
Yes. Zero velocity is a velocity; if it is always zero then it is a constant velocity.
what a stupid qn. ya it is possible
since accelaration is the change in velocity of an object per unit time......if velocity is zero then there is no acceleration.its nt possible
It is not possible for acceleration to have zero acceleration because the force acting on the object is gravity and g=9.8m/s squared. Gravity is the acceleration It can however have a zero velocity
As long as acceleration is zero, the object's velocity is constant.
When an object is in equilibrium, the acceleration is zero. When the acceleration is zero, the velocity does not change; the non changing velocity includes the case when the velocity has value zero.
yes
i think no
For example, an object thrown upwards, when it is at its highest point. This situation is only possible for an instant - if the acceleration is non-zero, the velocity changes, and can therefore not remain at zero.
Yes, a falling apple meets that condition.
Yes - for example, if an object moves in a circle.
velocity may be zero or may not be zero i.e. if the object may continue to move with uniform velocity.
velocity may be zero or may not be zero i.e. if the object may continue to move with uniform velocity.