Pascals Principle & Efficiecy related problem

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The problem involves a hydraulic jack with input and output pistons of different diameters and a lever that provides a mechanical advantage. A force of 180 N is applied to the lever, which amplifies this force due to the lever's mechanical advantage of 6. The output force generated by the hydraulic system is then calculated, taking into account the efficiency of 80%. The final mass that the jack can lift, based on the calculations, is 1410.6 kg, as confirmed by a NASA source. The discussion seeks step-by-step guidance on how to compute the forces involved in this hydraulic system.
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Homework Statement


The input and output pistons of a hydraulic jack are respectively 1 cm and 4 cm in diameter. A lever with a mechanical advantage of 6 is used to apply force to the input piston. How much mass can the jack lift if a force of 180 N is applied to the lever and efficiency is 80%?
(answer)


Homework Equations





The Attempt at a Solution


1410.6 kg
The above question is from a NASA webpage and the answer they provided is 1410.6 kg

Can anyone please tell me how do solve it ?
 
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Do it in steps.

1. Compute the force applied to the input cylinder by the lever.

2. Compute the force produced by the output cylinder.

3. Take efficiency into account.
 
I really don't understand the lever involving part and how to compute the input force,
isnt it 180 Newton as given above? please help me through this problem
 
180 N is the force applied to the lever. The lever has a certain mechanical advantage, so it transforms this force into another force, which is then applied to the cylinder. What is this latter force?
 
voko said:
180 N is the force applied to the lever. The lever has a certain mechanical advantage, so it transforms this force into another force, which is then applied to the cylinder. What is this latter force?

Hmm, How do I calculate the input force by lever :

Please can you do the solution for me once.
 

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