At a later time t$2,$ the current in the coil begins to decrease.

$($d$)$ Now what is the direction of the "curly" electric field in the loop?$---$Select$---$clockwise$$counter$-$clockwise$$E $=0$

At time t$2$ the rate of change of the magnetic field at the center of the loop, due to the coil, is $-0\mathrm{.}19$ T$/$s$.$

$($e$)$ At this time, what is the absolute value of the rate of change of the magnetic flux through the loop?

$|$dmag$/$dt$|=$ T m$2/$s

$($f$)$ At this time, what is the absolute value of the emf in the loop?

$|$emf$|=$ V

$($g$)$ What is the magnitude of the electric field at location P$,$ which is inside the wire?

$||=$ V$/$m

$($h$)$ Now the wire loop is removed. Everything else remains as it was at time t$2$; the magnetic field is still changing at the same rate. What is the magnitude of the electric field at location P$?$

$||=$ V$/$m