![Discrepancy while taking notes from my textbook. What am I missing that is causing the sign to flip? : r/ElectricalEngineering Discrepancy while taking notes from my textbook. What am I missing that is causing the sign to flip? : r/ElectricalEngineering](https://preview.redd.it/discrepancy-while-taking-notes-from-my-textbook-what-am-i-v0-3ecxfmyu537c1.png?width=1136&format=png&auto=webp&s=6ff40c40e6061fceb643b22a4151073ad8e1cc0f)
Discrepancy while taking notes from my textbook. What am I missing that is causing the sign to flip? : r/ElectricalEngineering
![Parte 1 ⚡⚡⚡ Análisis de circuitos. . . . . #electricidad #engenheiros #electricidadpty #electricidadchile #electricidad⚡… | Instagram, 1, Engenheiro Parte 1 ⚡⚡⚡ Análisis de circuitos. . . . . #electricidad #engenheiros #electricidadpty #electricidadchile #electricidad⚡… | Instagram, 1, Engenheiro](https://i.pinimg.com/736x/16/cd/c8/16cdc81fbb2f3bc143277c75b297eab8.jpg)
Parte 1 ⚡⚡⚡ Análisis de circuitos. . . . . #electricidad #engenheiros #electricidadpty #electricidadchile #electricidad⚡… | Instagram, 1, Engenheiro
![SOLVED: I wanted to know how do you find Xc (1/wC) when given Vc = 1.13 V and Ic = 1.3 A and w = 1.25 * 10^2. Also, how do you SOLVED: I wanted to know how do you find Xc (1/wC) when given Vc = 1.13 V and Ic = 1.3 A and w = 1.25 * 10^2. Also, how do you](https://cdn.numerade.com/ask_previews/a35a5ec5-7167-4b3c-af17-4015a63ea3a7_large.jpg)
SOLVED: I wanted to know how do you find Xc (1/wC) when given Vc = 1.13 V and Ic = 1.3 A and w = 1.25 * 10^2. Also, how do you
![SP-AC-KL Phasor - Kirchoff laws in alternative current - RLC Series Circuit Example 3.8. For the - Studocu SP-AC-KL Phasor - Kirchoff laws in alternative current - RLC Series Circuit Example 3.8. For the - Studocu](https://d20ohkaloyme4g.cloudfront.net/img/document_thumbnails/0b753ca63a0b2d8ccf312f00b66c682e/thumb_1200_1697.png)
SP-AC-KL Phasor - Kirchoff laws in alternative current - RLC Series Circuit Example 3.8. For the - Studocu
![SOLVED: Using the resonance formula Z = √(1/(wC - 1/(wL))) determine L for the magnet coil: 2n√(RC) Amplification and Quality Factor At resonance, X = 1/2 R^2 Xc = XL = R [ SOLVED: Using the resonance formula Z = √(1/(wC - 1/(wL))) determine L for the magnet coil: 2n√(RC) Amplification and Quality Factor At resonance, X = 1/2 R^2 Xc = XL = R [](https://cdn.numerade.com/ask_previews/c5abd654-66d0-49fa-b911-c1ecaf5297bc_large.jpg)
SOLVED: Using the resonance formula Z = √(1/(wC - 1/(wL))) determine L for the magnet coil: 2n√(RC) Amplification and Quality Factor At resonance, X = 1/2 R^2 Xc = XL = R [
![SOLVED: Reminder for L-R-C series circuits with an AC source: V = IZ Z = VR + [XL - Xc] Xc = 1/wC VL = IXL Vc = IXc Pav = ZvIcosθ SOLVED: Reminder for L-R-C series circuits with an AC source: V = IZ Z = VR + [XL - Xc] Xc = 1/wC VL = IXL Vc = IXc Pav = ZvIcosθ](https://cdn.numerade.com/ask_images/2c4299150a78428b911727b2a8e812e6.jpg)