(Solved): For the circuit shown in the figure, find \( Z_{e q} \) and use that to find current \( I \). Let ...

For the circuit shown in the figure, find \( Z_{e q} \) and use that to find current \( I \). Let \( \omega=10 \mathrm{rad} / \mathrm{s} \) and \( V=78 \angle 0^{\circ} \mathrm{V} \). The impedance \( Z_{e q}= \) \( +j \) \( \Omega \) (Calculate to 2 decimal places) The current \( i(t)=I_{m} \cos (10 t+\theta) \mathrm{mA} \), where \( I_{m}= \) \( \mathrm{mA} \) (Calculate to 2 decimal places) \( \theta=1 \) \( \operatorname{deg} \) (Calculate to 2 decimal places)