Physics Question on Electromagnetic induction

Question

In an inductor of self-inductance $L = 2\, mH$ , current changes with time according to relation, $I=t^{2}e^{-t}$ At what time emf is zero?

Answer 1

Solution

$L=2\,mH=2\times10^{-3}\,H$ $I=t^{2}e^{-t}$ $\frac{dI}{dt}=t^{2}e^{-1}(-1)+e^{-t}(2t)=te^{-t}(-t+2)$ Emf $=L\frac{dI}{dt}=2\times10^{-3}\,t\,e^{-t}(-t+2)$ Now, emf = $0$ , when $(-t+2)=0$ or $t=2\,s$