Samara89
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Suppose you need to remove a nail from a board by using a claw hammer. What is the input distance for a claw hammer if the output distance is 2.0 cm and the mechanical advantage is 5.5?

Respuesta :

skyluke89
The system in the problem can be assimilated to a simple lever. The mechanical advantage (MA) of a lever is
[tex]MA= \frac{d_i}{d_o} [/tex]
where [tex]d_i[/tex] is the distance of application of the input force with respect to the fulcrum, and [tex]d_o[/tex] the distance of the output force from the fulcrum.
In our problem, MA=5.5 and [tex]d_o = 2.0 cm[/tex]. So we can find the input distance:
[tex]d_i = MA \cdot d_o = 5.5 \cdot 2.0 cm =11.0 cm[/tex]

Answer:

[tex]d_i = 11.0\ cm[/tex]

Explanation:

It is given that,  

Output distance of claw hammer is [tex]d_o=2.0 \ cm[/tex]

And mechanical advantage of claw hammer, m = 5.5

We need to find the input distance for a claw hammer.

The mechanical advantage of claw hammer is given by the ratio of input distance for a claw hammer to its output distance:

                             [tex]m=\dfrac{d_i}{d_o}[/tex]           ....equation 1.

Now, putting values of [tex]d_o[/tex] and m in equation 1.

                             [tex]5.5=\dfrac{d_i}{2.0}[/tex]

[tex]d_i = 5.5\times 2.0 = 11.0\ cm[/tex]

Therefore value of input distance is 11.0 cm.Hence this is the required solution.

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