0 velocity
0 acceleration
The forces on the object are balanced: it is in equilibrium. (The forces are balanced on any object with 0 acceleration, even if it is moving.)
WHAT THE SPEED OF STATIONARY OBJECT?
Motion
intertia
0
The result is friction.
Newton's First Law of Motion states that objects will remain in their current state of motion (whether stationary or travelling at a constant velocity) unless an outside force acts on them. If he force you are mentioning here causes the net force to become unbalanced, then the force will cause the object to accelerate until the forces are balanced and it reaches either a constant speed, or the opposing force causes it to decelerate and eventually become stationary.
technically water is never stationary as it is made up of moving particles
There is really no such thing as an absolute stationary point. By convention one can be picked as any point in the observer's frame of reference (i.e. any point stationary relative to the observer).
A stationary object used to gauge the movement of another object might be called the reference. This could also be termed as the point of reference.
friction can not move stationary objects, it just opposes the relative motion between them.
Abbey, accordion, armory, auditorium and alley are stationary objects. Additional stationary objects include arena, avenue, apartment and archway.
None. There is no effect on a stationary object.
Non stationary objects.
Stationary objects.
Because motion is relative and since the car is moving it appears that the stationary objects are moving also. ================================= Why do things in the car with you seem stationary when they are moving just as fast as you and the car are ?
inertia - an object in motion stays in motion unless acted upon by an outside force/an object at rest stays at rest unless acted upon by an outside force hoped this answers your question ---> Balanced forces
Parallax movement.
Stationary object refers to an object that is not moving
False. Forces can also set stationary objects in motion.
Classically, gravity is proportional to mass (stationary gravitational mass).
Yes, that is correct.