Friction always acts opposite to the direction of motion.
Friction always acts opposite to the direction of motion.
Friction force works against the motion of the object. In other words friction force has the opponent direction of the velocity of the object.
Kinetic friction is the friction that applies when an object is moving; static friction is the friction that applies when the object is not moving. Static friction must always be greater than, or equal to, kinetic friction.
Kinetic energy is the energy of movement. It is related to an object's mass, and to its speed.
Friction always acts in a direction opposite to the direction of motion. When to push or pull an object, friction manifests in a direction opposite to motion and the frictional force is dependent on the characteristics of the surfaces. When the push or pull force is slowly increased, at a certain point the frictional force is overcome and the object starts moving.
because kinetic energy creates friction which will make the tempeture rise
Kinetic energy- capable of movement. Inertia, when moving, and friction-brakes when slowing down.
Friction creates heat when an object rubs against another very quickly. So, if the kinetic energy is higher, then there is a more higher chance of heat production.
Kinetic energy. That's energy related to the movement of objects, the "energy of movement".
Work = Force x Distance Friction is a force usually operating in the opposite direction to the force being applied. Thus friction adds to the size of the force applied and work is increased.
Fluid friction is the type that exists for a shark swimming in the ocean. It's related to drag force, which affects objects moving through water.
The resistance to a change in velocity is called "inertia". It is related to the mass of an object.