They are the opposite to each other. You push which is forcing it forward and you pull it to make it come back.
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In general, "push" involves exerting force away from the body, while "press" involves applying force towards or against something. For example, a push-up involves pushing the body away from the ground, while a bench press involves pressing a weight away from the body.
A push force is when an object is pushed away from the force, while a pull force is when an object is pulled towards the force.
The PUSH instruction pushes a value onto the stack in x86 assembly language. The PUSHF instruction specifically pushes the flags register onto the stack.
The relationship between EMF (electromotive force) and potential difference in an electrical circuit is that EMF is the total energy supplied by a source, while potential difference is the energy transferred per unit charge as it moves through the circuit. In simpler terms, EMF is the total push provided by the power source, while potential difference is the push experienced by the charges as they flow through the circuit.
The net force is the difference between the applied force and the frictional force: 22.8N - 2.3N = 20.5N.
A push is when a force is applied in the direction of the object's motion, while a pull is when a force is applied in the opposite direction of the object's motion. Essentially, a push moves an object away from the force, and a pull moves an object towards the force.