Objects are always moving. The earth is moving and so everything on it. Nothing even off the planet ever stops moving because ALL motion is relative. Something is only not moving relative to something moving the same way.
velocity
A group of balanced forces adds vectorially to zero, so has no effect on any object, whether it's moving or not moving.
When balanced forces are applied to a moving object, the object likely slow and eventually stop. How quickly that occurs depends on the amount of force.
You cannot because you do not know how long before the object falls to the ground and so stops moving.
It can be said that the net force applied on the object is zero or that the object is in translational equilibrium. Keep in mind that these terms can also be applied if the object is moving at a constant velocity.
The object would be moving.
The object does not appear to be staying in one place. Or, it is moving if it's distance from another object is changing.
When you know both the speed and direction of an object's motion, you know its velocity. Velocity describes both how fast an object is moving (speed) and in what direction it is moving.
If you know the speed and direction of the object's motion, then you know its velocity.
velocity
Then we will know the object's velocity.
we can say an object is moving if it changes it constant environmnent or background
When you know both speed and direction of an object in motion, you know the velocity of the object. Velocity is a vector quantity that describes how fast an object is moving and in what direction.
You need to improve your question and give more details
No, the mass of a moving object is not necessary to calculate the amount of work done on it. Work is calculated as the force applied to an object multiplied by the distance the object moves in the direction of the force.
It is easier to push a moving object than an object of the same mass because the weight on the moving object is less and out more.... I know this doesn't quite make sense but email me at oliviabastianich@Gmail.com for a better explenation... i will help in the next 12 hours!
It's important to know that you reference point is moving because if an object is in motion and if it changes position it is relevant to a reference point.