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The class of lever where the fulcrum is between the input force and the output force is a class 1 lever. In this type of lever, the load is on one side of the fulcrum, while the effort (input force) is applied on the other side. An example of a class 1 lever is a seesaw.
The formula for work exerted by each simple machine is: Lever: Work = Input force × Input distance = Output force × Output distance Inclined plane: Work = Input force × Input distance = Output force × Output distance Pulley: Work = Input force × Input distance = Output force × Output distance Wheel and axle: Work = Input force × Input radius = Output force × Output radius Wedge: Work = Input force × Input distance = Output force × Output distance Screw: Work = Input force × Input distance = Output force × Output distance
To calculate input force, divide the output force by the mechanical advantage of the machine or system. Input force = Output force / Mechanical advantage. The output force is the force exerted by the machine, while the input force is the force applied to the machine.
Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.
A seesaw is a type of Class 1 lever, where the fulcrum is located between the effort (the force applied to move the lever) and the load (the object being moved). This means that the force applied on one end of the seesaw will cause movement on the other end.
first class lever. Why? because it is in the order of output force-fulcrum-input force. output force ______________________________ input force fulcrum
The class of lever where the fulcrum is between the input force and the output force is a class 1 lever. In this type of lever, the load is on one side of the fulcrum, while the effort (input force) is applied on the other side. An example of a class 1 lever is a seesaw.
The formula for work exerted by each simple machine is: Lever: Work = Input force × Input distance = Output force × Output distance Inclined plane: Work = Input force × Input distance = Output force × Output distance Pulley: Work = Input force × Input distance = Output force × Output distance Wheel and axle: Work = Input force × Input radius = Output force × Output radius Wedge: Work = Input force × Input distance = Output force × Output distance Screw: Work = Input force × Input distance = Output force × Output distance
An output force is the force that is exerted from the input force to create motion of the resisting object. the input force can be less or more then the output force
Input and output are shown on a force diagram by the human being the input force and the load force being the output force. When you divide output force by input force, you get the mechanical advantage of a lever.
An output force is the force that is exerted from the input force to create motion of the resisting object. the input force can be less or more then the output force
The difference between and input force and an output force is that an output force is force exerted by a machine, and an input force is force exerted on a machine.
To calculate input force, divide the output force by the mechanical advantage of the machine or system. Input force = Output force / Mechanical advantage. The output force is the force exerted by the machine, while the input force is the force applied to the machine.
Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.
Mechanical Advantage which is the output force divided by the input force.
A seesaw is a type of Class 1 lever, where the fulcrum is located between the effort (the force applied to move the lever) and the load (the object being moved). This means that the force applied on one end of the seesaw will cause movement on the other end.
The mechanical advantage (MA) is calculated as the ratio of the output force to the input force, or the distance the input force acts over compared to the distance the output force moves. The formula for mechanical advantage is MA = output force / input force = input distance / output distance.