Yes, it is vector with magnitude and direction
the 2 things you should describe about a force that acts on an object is the size and direction
Strictly you should ask whether a force can change the direction a body is moving in. The answer is yes.
In a perpendicular direction to the rotating body.
in the same direction as the object's motion.
yes it changes the direction, and increases the force
When a block is floating in a fluid, the net force in the vertical direction is zero. This is because the weight of the block is balanced by the buoyant force acting in the opposite direction, resulting in equilibrium.
If the angle between the force and the direction of motion of a body is 90 degrees (perpendicular), then the work done is zero. This is because the component of force in the direction of motion is zero, resulting in no work being done on the object.
When stating a force, you should always provide its magnitude (strength), direction, and point of application.
Both unbalanced force and balanced force can have direction. Unbalanced force causes acceleration in the direction of the force, while balanced force results in no net motion as the forces cancel each other out. The direction of the force determines how an object will move or behave.
Force changes either the speed or the direction of motion, or both.
Pulleys change the direction of a force.
The direction of an object's acceleration is determined by the direction of the net force acting on it. The change in velocity of the object is also influenced by this net force. Therefore, the direction of the object's acceleration and the direction of its change in velocity are related in that they are both affected by the net force acting on the object.