The force of friction is equal in magnitude to the applied force and opposite in its direction. The force of friction may also increase if you increase the applied force, up to a certain limit.
Just about everything relates to physics, nothing is magic, everything happens for a reason
Work is applied to an object and the object is moved over a distance in the same direction of the applied force.
When the area over which a force is applied decreases, the average force applied over said area increases. In other words, the pressure (force/area) increases.
it moves ----------> there for if you were to push the object it will go <--------
If the applied force is constant, the acceleration will also be constant. To know the actual amount of acceleration, you divide the force by the mass.
If a force is applied to an object, but the object does not move or change its shape, then the force is likely being balanced by an equal and opposite force. This situation is described by Newton's third law of motion, which states that for every action there is an equal and opposite reaction.
An example of a force being applied but nothing happening is pushing a broken-down car that has its parking brake engaged. Despite applying a force to move the car, it remains stationary due to the resistance of the parking brake.
When a person pushes against a solid brick wall, the force is applied but the wall does not move or respond. This is because the wall exerts an equal and opposite force back on the person, resulting in no change in the wall's position.
The object will not move!!!
it increases in direct proportion to the force applied
Surface Tension happens
The object is accelerated in the direction of the net (or resultant) force.
When force is applied to a flat surface, it can result in the surface deforming or breaking depending on the magnitude of the force. The surface may also experience frictional forces depending on the material and the amount of force applied.
When a force is applied to an object in the opposite direction of its motion, the object will slow down. The force will act as a decelerating force, causing the object to lose speed and eventually come to a stop if the force continues to be applied.
effect of force
that depends on how it is placed, vertically or diagonally .
When a pulling force is applied to a spring, it stretches due to the tension created in the spring's material. The spring elongates in the direction of the applied force until the force is removed. The amount of stretching is proportional to the force applied, as described by Hooke's Law.