![JUNIOR INSTRUCTOR TECHNICAL POWER ELECTRONICS SYSTEM INDUSTRIAL TRAINING : page 5 - Kerala PSC Question Paper JUNIOR INSTRUCTOR TECHNICAL POWER ELECTRONICS SYSTEM INDUSTRIAL TRAINING : page 5 - Kerala PSC Question Paper](https://kpsc.jobquiz.info/image/JUNIOR_INSTRUCTOR_TECHNICAL_POWER_ELECTRONICS_SYSTEM_INDUSTRIAL_TRAINING_1206_5.jpg)
JUNIOR INSTRUCTOR TECHNICAL POWER ELECTRONICS SYSTEM INDUSTRIAL TRAINING : page 5 - Kerala PSC Question Paper
![A device Y is connected across an AC source of emf e = e0 sin ωt. The current through Y is given as i = i0 sin (ωt + π/2). - Physics | Shaalaa.com A device Y is connected across an AC source of emf e = e0 sin ωt. The current through Y is given as i = i0 sin (ωt + π/2). - Physics | Shaalaa.com](https://www.shaalaa.com/images/_4:d3238c590bd649d0a2fd48d804d3a083.png)
A device Y is connected across an AC source of emf e = e0 sin ωt. The current through Y is given as i = i0 sin (ωt + π/2). - Physics | Shaalaa.com
![Identify the graph which correctly represents the variation of capacitive resistance XC with frequency. Identify the graph which correctly represents the variation of capacitive resistance XC with frequency.](https://df0b18phdhzpx.cloudfront.net/ckeditor_assets/pictures/1286504/original_6B.png)
Identify the graph which correctly represents the variation of capacitive resistance XC with frequency.
![Three electrical circuits having AC sources of variable frequency are shown in the figures. Initially, the current flowing in each of these is same. If the frequency of the applied AC source Three electrical circuits having AC sources of variable frequency are shown in the figures. Initially, the current flowing in each of these is same. If the frequency of the applied AC source](https://d10lpgp6xz60nq.cloudfront.net/physics_images/ARH_EM_AHSEC_PHY_XII_SQP_01_E01_037_S02.png)