In a closed system in the "real world" in which we live, there are losses associated with friction and other actions. These forces "take energy" from the system between its input and output. When we apply force to the imput of a system, some is lost as the force is transferred through that system. That means that the output force we observe will always be a bit less than the input force.
A transmission in a vehicle is a classic example of the idea that there are losses between the input and the output of a system. The input from the engine will always be a bit greater than the output at the tailshaft (or axles for a transaxle) due to losses within the transmission.
Wiki User
∙ 13y agoWiki User
∙ 10y agoinput force is the force you apply on the machine and output force the force that the machine applies and the output work can never be greater than the input work
For asimple machine, the user of the machine exerts a force, the input force. The machine exerts a force on the load, or object to be moved. This is the output force.
Wiki User
∙ 12y ago( ignoring friction losses )
input force * mechanical advantage ( speed in/speed out )= output force,
but work done at both ends is the same (force * distance in direction of force) .
Wiki User
∙ 10y agoNone whatsovever
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of course there is. Any machine is designed to convert the input force to a useable output force. The output force is dependent upon the magnitude of the input multiplied by the efficiency (in percentage) of the machine to convert that force into useful work. The output is always less than the input.
An output force is the force exerted by a machine or system as a result of input force or energy. It is the force that is produced by the machine to perform work or move an object.
Wiki User
∙ 15y agothat depends on the amount of input and/or input force
Wiki User
∙ 13y agoUsually not; an input force has to be converted to an output force, and in the process, a lot of the force is lost.
Wiki User
∙ 14y agooutput force force exerted by a machine.
Wiki User
∙ 13y agoMechanical advantage (MA).
MA = output force / input force
Wiki User
∙ 16y agoyes
Output force is the force exerted by a machine or mechanism to accomplish a task. It is the force that is produced by the system as a result of input force, mechanical advantage, and efficiency of the system. The output force can be calculated using the formula: output force = input force x mechanical advantage.
Force output refers to the amount of force applied to an object, while work output measures the amount of work done by that force in moving the object over a distance. In other words, force output is the strength or intensity of the force, while work output is the result of that force in regards to the distance the object is moved.
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.
Mechanical advantage can be calculated as the ratio of output force to input force. In this case, the mechanical advantage would be 25 N (output force) divided by 5 N (input force), which equals 5. So, the mechanical advantage of the machine is 5.
Answer: Output force is the force exerted on an object by a simple machine.
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.
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.
Output force is the force exerted by a machine or mechanism to accomplish a task. It is the force that is produced by the system as a result of input force, mechanical advantage, and efficiency of the system. The output force can be calculated using the formula: output force = input force x mechanical advantage.
Force output refers to the amount of force applied to an object, while work output measures the amount of work done by that force in moving the object over a distance. In other words, force output is the strength or intensity of the force, while work output is the result of that force in regards to the distance the object is moved.
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.
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
Mechanical Advantage which is the output force divided by the input force.
Mechanical advantage can be calculated as the ratio of output force to input force. In this case, the mechanical advantage would be 25 N (output force) divided by 5 N (input force), which equals 5. So, the mechanical advantage of the machine is 5.
Input force is the force applied to an object, while output force is the force exerted by the object in response. In a simple machine, the input force is the force applied to it, and the output force is the force produced by the machine to do work. The relationship between input and output forces determines the efficiency of a machine.