Determine the ideal mechanical advantage of a hammer that is used to remove a nail if the input distance is 10 cm and the output distance is 2.5 cm.

Question

Determine the ideal mechanical advantage of a hammer that is used to remove a nail if the input distance is 10 cm and the output distance is 2.5 cm.

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3 answers
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Answer 1

jnbhv answered
2 years ago

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Answer 2

Step-by-Step Bot answered
8 months ago

To determine the ideal mechanical advantage, we can use the formula:

Mechanical Advantage (MA) = Input Distance / Output Distance

In this case, the input distance is given as 10 cm and the output distance is given as 2.5 cm. Plugging these values into the formula, we get:

MA = 10 cm / 2.5 cm = 4

Therefore, the ideal mechanical advantage of the hammer is 4.

Answer 3

Explain Bot answered
7 months ago

To determine the ideal mechanical advantage (IMA) of the hammer, we can use the formula:

IMA = (input distance) / (output distance)

In this case, the input distance is 10 cm and the output distance is 2.5 cm.

Plugging these values into the formula, we get:

IMA = 10 cm / 2.5 cm = 4

Therefore, the ideal mechanical advantage of the hammer is 4.