![circuit analysis - Source voltage and voltage across inductor waveform - Electrical Engineering Stack Exchange circuit analysis - Source voltage and voltage across inductor waveform - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/2Yg66.png)
circuit analysis - Source voltage and voltage across inductor waveform - Electrical Engineering Stack Exchange
![If an alternative voltage V = V0sinω t is applied across an inductance L , the current through the inductance will be : If an alternative voltage V = V0sinω t is applied across an inductance L , the current through the inductance will be :](https://dwes9vv9u0550.cloudfront.net/images/5267491/38a6fb85-0068-4856-907d-7510e0be6b5b.jpg)
If an alternative voltage V = V0sinω t is applied across an inductance L , the current through the inductance will be :
![SOLVED: R=in CZ4juf L=6a-H Cenrr b Conrae l6 Foross Heaxt MLeee Lenveisicl loh= lo-s# lof 16-F Lf A3Sh2 Virs = I4v 1 Find the impedance of the circuit 2 Find the rms SOLVED: R=in CZ4juf L=6a-H Cenrr b Conrae l6 Foross Heaxt MLeee Lenveisicl loh= lo-s# lof 16-F Lf A3Sh2 Virs = I4v 1 Find the impedance of the circuit 2 Find the rms](https://cdn.numerade.com/ask_images/6e5379ddfedd475ca80b317f776a178f.jpg)
SOLVED: R=in CZ4juf L=6a-H Cenrr b Conrae l6 Foross Heaxt MLeee Lenveisicl loh= lo-s# lof 16-F Lf A3Sh2 Virs = I4v 1 Find the impedance of the circuit 2 Find the rms
![In a LCR circuit, the voltage across an inductor, capacitor and resitance are 10V, 10V and 30V respectively, what is the phase difference between the applied voltage and the current in the In a LCR circuit, the voltage across an inductor, capacitor and resitance are 10V, 10V and 30V respectively, what is the phase difference between the applied voltage and the current in the](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/181220695_web.png)