| ??? 05/05/06 17:15 Read: times |
#115702 - Stay with 1/Z Responding to: ???'s previous message |
Stay with admittances rather than turning everything to impedances, which keeps the maths simpler, reduce the imaginary part to zero at resonance since it doesn't matter whether you do that as Z or 1/Z - keeps the math simpler
1/Z = C/RL -jwLR^2(1-w^2LC)/w^2R^2L^2 |
| Topic | Author | Date |
| PhD Qualifier | 01/01/70 00:00 | |
| Study resonance | 01/01/70 00:00 | |
| RLC Circuits | 01/01/70 00:00 | |
| And that's all you're getting | 01/01/70 00:00 | |
| Well | 01/01/70 00:00 | |
| Maths | 01/01/70 00:00 | |
| Maths | 01/01/70 00:00 | |
| Simplify ! | 01/01/70 00:00 | |
| Eh | 01/01/70 00:00 | |
| Ancient books | 01/01/70 00:00 | |
| books | 01/01/70 00:00 | |
| the role of RL and C | 01/01/70 00:00 | |
| Stay with 1/Z | 01/01/70 00:00 | |
| Well | 01/01/70 00:00 | |
| ... and at resonance | 01/01/70 00:00 | |
| Vector-diagram | 01/01/70 00:00 | |
| phasor | 01/01/70 00:00 | |
Thanks! | 01/01/70 00:00 |