Effort arm is always greater than the load arm in:

first order lever

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second order lever

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third order lever

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complex machine

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Solution

The correct option is B second order lever
$Solution :$
1. A second-class lever is one in which the load is located between the fulcrum and the effort.
2. In a second-class lever, moving the load changes the length of the load arm but has no effect on the length of the effort arm.
3. As the effort arm is always longer than the load arm in this type of lever, mechanical advantage decreases as the length of the load arm approaches the length of the effort arm, yet will always be greater than 1 because the load must be located between the fulcrum and the effort.

$Hence B is the correct option$

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