Yes. Forces are constantly applied to objects; for an energy transfer (work) to occur, there must be a force AND movement: work = force times distance.
The force actuated by depressing the brake pedal is in return expressed equally towards the friction applied to calipers, shoes, etc. thereby making it potential energy. At least I think.
Force and energy relate in multiple ways; first, energy must be used to apply force. Though, they do have their differences; force is applied to result in movement of some sort, and energy has many different states.
Force and weight are different for the fact that force is the energy applied and weight is the mass or heaviness of an object
Yes. You can also think of potential energy as energy applied against some force, such as gravity, the force of a spring, etc.
motion / kinetic energy
Under those circumstances, the largest amount of mass possible is affected by the applied force, giving it more kinetic energy.
•An action (transfer of energy) that will accelerate a body in the direction of the applied force.
The force actuated by depressing the brake pedal is in return expressed equally towards the friction applied to calipers, shoes, etc. thereby making it potential energy. At least I think.
an applied force or energy
Mechanical Energy if i remember correctly.
Force and energy relate in multiple ways; first, energy must be used to apply force. Though, they do have their differences; force is applied to result in movement of some sort, and energy has many different states.
Elastic potential energy.
Used energy. Exerted/applied some force.
Force and weight are different for the fact that force is the energy applied and weight is the mass or heaviness of an object
Yes. You can also think of potential energy as energy applied against some force, such as gravity, the force of a spring, etc.
Yes. You can also think of potential energy as energy applied against some force, such as gravity, the force of a spring, etc.
pushes and pulls are things you do when energy is applied