(SOLVED)A circular loop of flexible iron wire has an initial circumference of 165.0 cm, but its circumference is decreasing at a constant rate of 12.0 cm>s due to a tangential pull on the wire

(a)

The expression for the circumference is,

$c=2\pi r$

The circumference is decreasing at a constant rate is,

$c=1.65\mathrm{m}-0.12tm/s$

Rewrite the above expression for r.

$r=\frac{c}{2\pi }$

Substitute $1.65\mathrm{m}-0.12tm/s$ for c in the above equation.

$\begin{array}{c}\\ r=\frac{1.65\mathrm{m}-0.12tm/s}{2\pi }\\ \\ =0.26-0.019t\end{array}$

The expression for magnetic flux is,

$\varphi =BA$

Substitute $\left(3.14\right){\left(0.26-0.019t\right)}^2$ for A and 0.500 T for B in the above equation.

$\varphi =\left(0.500\mathrm{T}\right)\left(3.14\right){\left(0.26-0.019t\right)}^2$

The expression for induced emf in the loop is,

$\epsilon =-\frac{d\varphi }{dt}$

Substitute $\left(0.500\mathrm{T}\right)\left(3.14\right){\left(0.26-0.019t\right)}^2$ for $\varphi$ in the above equation.

$\begin{array}{c}\\ \epsilon =-\frac{d}{dt}\left(0.500\mathrm{T}\right)\left(3.14\right){\left(0.26-0.019t\right)}^2\\ \\ =\left(0.500\mathrm{T}\right)\left(3.14\right)2\left(0.19\right)\left(0.26-0.019t\right)\end{array}$

Substitute 9.0 s for t in the above equation.

$\begin{array}{c}\\ \epsilon =\left(0.500\mathrm{T}\right)\left(3.14\right)2\left(0.019\right)\left(0.26\mathrm{m}-0.019m/s\left(9.0\mathrm{s}\right)\right)\\ \\ =0.0053097\mathrm{V}\end{array}$

Therefore, the induced emf in the loop is 0.0053097 V.