When a moving object is pushed in the direction of its motion the speed of the object increases
When a moving object is pushed in the direction of its motion the speed of the object increases
The speed increases. The object accellerates positively in the direction of motion.
Friction will always act in the direction opposite of the relativistic motion of two objects. If object A is moving to the right on object B, then object A will experience the friction to the left. However, object B will be moving to the left on object A and will therefore experience the friction acting towards the right.
If you know the speed and direction of the object's motion, then you know its velocity.
This is one definition of acceleration (including deceleration) - any change in the speed of motion of a moving object, or in the direction of its motion. Motion is a vector value with both speed and direction.
it will be in the same direction in which it is moving. If it is not moving it will remain at rest
By applying a force to it in the direction opposite to its motion.
Friction always acts in a direction opposing the motion of an object.
Force changes either the speed or the direction of motion, or both.
A force applied to a moving object in the opposite direction of its motion causes its velocity to decrease.
Work. The object doesn't have to be moving in the same direction as the force.If I'm pushing north and the object is moving northeast, then it has a componentof motion in the direction of my force, and I do work.
any force opposite the direction of motion