![SOLVED: 9.1. Find the cutoff frequency . for the passive series RL low-pass filter. Determine the transfer function H(j) and evaluate it at the angular frequencies , 0.125, and 8. . 50 SOLVED: 9.1. Find the cutoff frequency . for the passive series RL low-pass filter. Determine the transfer function H(j) and evaluate it at the angular frequencies , 0.125, and 8. . 50](https://cdn.numerade.com/ask_images/fb96f02515a8441da3aa1b5feb1599e3.jpg)
SOLVED: 9.1. Find the cutoff frequency . for the passive series RL low-pass filter. Determine the transfer function H(j) and evaluate it at the angular frequencies , 0.125, and 8. . 50
![circuit analysis - How to easily calculate transfer function of an LC filter - Electrical Engineering Stack Exchange circuit analysis - How to easily calculate transfer function of an LC filter - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/ijwuy.png)
circuit analysis - How to easily calculate transfer function of an LC filter - Electrical Engineering Stack Exchange
![SOLVED: a) Derive an expression for the RL circuit's (in Figure 2) transfer function (b) Use the result from part (a) to derive an expression for cut-off frequency of the series RL SOLVED: a) Derive an expression for the RL circuit's (in Figure 2) transfer function (b) Use the result from part (a) to derive an expression for cut-off frequency of the series RL](https://cdn.numerade.com/ask_images/8b89f7f982724c7092c21d482d0d184e.jpg)
SOLVED: a) Derive an expression for the RL circuit's (in Figure 2) transfer function (b) Use the result from part (a) to derive an expression for cut-off frequency of the series RL
![resistors - A simple RL circuit, getting transfer function, matching with results - Electrical Engineering Stack Exchange resistors - A simple RL circuit, getting transfer function, matching with results - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/tNOGw.png)