output force
In a machine, the effort force you apply is used to overcome a resistance force. The resistance force is the force that the machine acts against in order to perform work.
In a machine, the effort force tries to overcome the resistance force. The effort force is applied to the machine in order to move or lift the resistance force, which is the force that opposes the motion or lifting action. The difference between the effort force and the resistance force determines the mechanical advantage of the machine.
The force to be overcome by a simple machine is called the input force or effort force. This is the force applied to the machine in order to make it work against the resistance force or load.
The force that a simple machine applies is called effort force. It is the force that is applied to operate the machine and overcome resistance.
Effort in a simple machine refers to the force applied by a person or machine to operate the machine. It is the input force needed to overcome resistance and move the load in the machine. The effort required depends on the type of machine and the mechanical advantage it provides.
In a machine, the effort force you apply is used to overcome a resistance force. The resistance force is the force that the machine acts against in order to perform work.
In a machine, the effort force tries to overcome the resistance force. The effort force is applied to the machine in order to move or lift the resistance force, which is the force that opposes the motion or lifting action. The difference between the effort force and the resistance force determines the mechanical advantage of the machine.
The force to be overcome by a simple machine is called the input force or effort force. This is the force applied to the machine in order to make it work against the resistance force or load.
The force that a simple machine applies is called effort force. It is the force that is applied to operate the machine and overcome resistance.
Effort in a simple machine refers to the force applied by a person or machine to operate the machine. It is the input force needed to overcome resistance and move the load in the machine. The effort required depends on the type of machine and the mechanical advantage it provides.
The two things are momentum and acceleration when the effort force is applied to a machine
The ratio of resistance force to effort force is equal to the mechanical advantage of a simple machine. This ratio indicates how much the machine amplifies the input force to overcome resistance. It is calculated as the ratio of the distances from the fulcrum to the points where the effort force and resistance force are applied.
input force/effort force In physics, the force that you apply to something over time is "work".
input force/effort force In physics, the force that you apply to something over time is "work".
To calculate mechanical advantage, you need to know the effort force applied to the machine and the resistance force it is able to overcome. By dividing the resistance force by the effort force, you can determine the mechanical advantage of the machine.
The resistance force is the opposing force a machine must overcome to move an object over a distance. The work done by the machine is the product of the force applied and the distance over which the object is moved.
Effort force - Force applied to a machine when a machine is used to do work. A. Monjay Sutherland