mechanical advantage= output force over input force times 100
1
In the distance from the fulcrum to the input forcedivided by the distance from the fulcrum to theoutput force.
Exactly the same. The reduction in gravitational force has no effect on M.A., which is a matter of simple geometry.
Yes, the simple machine is a lever if you look at the top of a normal playground swing.
yes
The mechanical advantage of the machine is"if you give small accelration , it will increase the speed of the engine... It is possible by mechanical
define mechanical & simple mechanical berify
The mechanical advantage of a simple machine in this scenario would be 5. This is calculated by dividing the output force (200 newtons) by the input force (40 newtons).
The mechanical advantage of the simple machine is 2, which is calculated as the output force divided by the input force (4n/2n = 2).
because it has no brain
friction affects the M.A in a simple machine.
The "Ideal Mechanical Advantage" of a simple machine isIMA = output force /input force . To find the 'actual' or real-world mechanical advantage,multiply the IMA by the machine's efficiency.
Effort force can be found by dividing the load force by the mechanical advantage of the system. The mechanical advantage is the ratio of the load force to the effort force in a simple machine. Alternatively, effort force can be calculated using the formula Effort Force = Load Force / Mechanical Advantage.
The answer is mechanical advantage, not efficiency!
you have to multiply the individual mechanical advantages of all the simple machines that make up the compound machine.
you have to multiply the individual mechanical advantages of all the simple machines that make up the compound machine.
you have to multiply the individual mechanical advantages of all the simple machines that make up the compound machine.