Chapter 1: Q59P (page 1)

A force ${\vec{F}}_{a}$ is applied to a bead as the bead is moved along a straight wire through displacement $+ 5.0 c m$ . The magnitude ofrole="math" localid="1657167569087" ${\vec{F}}_{a}$ is set at a certain value, but the $ϕ$ angle ${\vec{F}}_{a}$ between and the bead’s displacement can be chosen. Figure $7 - 45$ gives the work $W$ done byon the bead for a range of role="math" localid="1657166842505" $ϕ$ values;role="math" localid="1657167794268" $W_{0} = 25 J$ . How much work is done byrole="math" localid="1657167547441" ${\vec{F}}_{a}$ if $ϕ$ is (a) $64 °$ and (b) $147 °$ ?

Short Answer

Expert verified

Work done when $ϕ = 64 °$ is $11 J$ .
Work done when $ϕ = 147 °$ is $- 21 J$ .

Step by step solution

Given information

It is given that, graph of work done with various values of,

$W_{0} = 25 J, when ϕ = 0, \begin{matrix} x = 5.0 cm \\ = 0.05 m \end{matrix} .$

Determining the concept

The problem deals with the power and the work done. Work, energy, and power are the fundamental concepts of physics. Work is the displacement of an object when force is applied on it.By using the value of $W_{0}$ find the applied force $F_{a}$ , which can be used to find the work done $64 °$ cat and $147 °$ .

Formula:

$W = F d \cos φ$

where,F is force, dis displacement and Wis the work done

(a) determining the work done when φ=64°

From the graph,

$W_{0} = 25 J W_{0} = F_{a} . x F_{a} = \frac{25}{0.05} F_{a} = 500 N$

Hence, work done when $ϕ = 64 °$ is $11 J$ .

(b) determining the work done when ϕ=147°.

Work done when $ϕ = 64 °$ ,

W = F_{a} \times \cos 64 W = 500 \times 0.05 \times 0.4383 W = 10.9575 J W \approx 11 J W = F_{a} \times \cos 147 W = 500 \times 0.05 \times (- 0.8386) W = - 20.96 J W = - 20.96 J W \approx - 21 J

Hence, work done when $ϕ = 147 °$ is $- 21 J$ .

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Short Answer

Step by step solution

Given information

Determining the concept

(a) determining the work done when φ=64°

(b) determining the work done when ϕ=147°.

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