A force${\overrightarrow{\mathit{F}}}_{\mathit{a}}$is applied to a bead as the bead is moved along a straight wire through displacement$\mathit{+}\mathit{5}\mathit{.}\mathit{0}\mathit{c}\mathit{m}$. The magnitude ofrole="math" localid="1657167569087" ${\overrightarrow{\mathit{F}}}_{\mathit{a}}$is set at a certain value, but the$\mathit{\varphi }$angle${\overrightarrow{\mathit{F}}}_{\mathit{a}}$between and the bead’s displacement can be chosen. Figure$\mathbf{7}\mathbf{-}\mathbf{45}$gives the work$\mathit{W}$done byon the bead for a range of role="math" localid="1657166842505" $\mathit{\varphi }$values;role="math" localid="1657167794268" ${\mathit{W}}_{\mathit{0}}\mathit{=}\mathit{}\mathit{25}\mathbf{}\mathbf{J}$. How much work is done byrole="math" localid="1657167547441" ${\overrightarrow{\mathbf{F}}}_{\mathbf{a}}\mathbf{}$if $\mathit{\varphi }$is (a) $\mathbf{64}\mathbf{°}$and (b)$\mathbf{147}\mathbf{°}$?

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