Yes. For a complete understading, Newton's Second Law (F=ma, force = mass x acceleration) should really be understood to be a law relating vector quantities; mass is a scalar, but both force and acceleration are vectors. And if you multiply a vector by a scalar, you get another vector in the same direction.
It's speed (the magnitude of its velocity) increases.
It would just go the way of the net force. Unless there was a stronger force behind it.
If the object is moving at constant velocity, that's an indication that the net force on it is zero.
motion in the direction of the applied force
accelerates
Since the opposite force is the strongest the object will tend to change direction of the object.Thats one of the effects of force.
When an object is moving in a particular direction, air resistance will be acting on the object in the opposite direction to the direction of travel.
This is a moving object that is slowing down.
Statinory object can be moved. Moving object can be stopped. Direction of a moving object can be changed.etc.
A force applied to a moving object in the opposite direction of its motion causes its velocity to decrease.
Since the opposite force is the strongest the object will tend to change direction of the object.Thats one of the effects of force.
The opposite direction. To stop a moving object requires an acceleration in the direction opposite its motion.
When an object is moving in a particular direction, air resistance will be acting on the object in the opposite direction to the direction of travel.
This is a moving object that is slowing down.
If the positive direction was defined at the outset as the direction opposite to the direction in which the object happens to be moving just now, and the object is slowing down, then the acceleration is positive because, algebraically, the object's speed is increasing in the positive direction.
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.
By applying a force to it in the direction opposite to its motion.
Statinory object can be moved. Moving object can be stopped. Direction of a moving object can be changed.etc.
A force applied to a moving object in the opposite direction of its motion causes its velocity to decrease.
any force opposite the direction of motion
A force applied to it in the direction opposite to its motion is.
Friction always acts in a direction opposing the motion of an object.