Calculating Leverage with Crates on Hydraulic Lifting Beam

AI Thread Summary
The discussion focuses on calculating various mechanical properties related to a hydraulic lifting beam used to lift crates weighing 500 kg. Participants are tasked with determining the type of lever, the effort required to lift the load, mechanical advantage, velocity ratio, and useful energy output, given an efficiency of 80%. Initial calculations suggest that a third-class lever may be involved, with one participant estimating the effort needed to lift the load as 34,335 N. The conversation emphasizes the importance of understanding lever classes and applying relevant equations for accurate calculations. Overall, the thread seeks collaborative input to solve the mechanical advantage and efficiency problems presented.
John78
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Homework Statement



The crates( one create 500 kg) are placed on a hydraulic lifting beam:

1. State the order of lever used here
2. Calculate the effort required to lift the load
3. Calculate mechanical advantage for this system
4. Calculate the velocity ratio for this system. If the work put in is 5000J.Calculate the useful energy output.
5. System has efficiency of 80%. Calculate the velocity ratio for this system.



Homework Equations



1. Only class 1 and class 2 levers can be used to gain mechanical advantage

2. large distance x small effort = small distance x large load

3. Mechanical advantage = load/effort

4. Velocity ratio = distance moved by effort/distance moved by load
Efficiency = output/input

5. Efficiency = mechanical advantage/velocity ratio



The Attempt at a Solution



1. First order?
2. effort x 8 = 500x9.81x7, effort= 34335 N ?
3. ?
4. ?
5. ?


I hope to get any idea to solve them or help me to solve anyone
I'm looking forward to get yr help
 

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