Al-Huda Science Academy has designed Class 12 MCQs Physics Chapter 12 Electrostatics for board, MdCat and ECAT preparation. These MCQs help students to prepare for their entry test papers.
Chapter 12 Electrostatics includes topics:
- Electric field Intensity
- Electric Flux
- Gauss’s Law and Applications
- Electrical Potential
- Electrical Field as Potential Gradient
- Electron Volt
- Millikan’s Oil Drop Method
- Capacitance
- Energy Stored in capacitor
MCQs Physics Chapter 12 Electrostatics
Results

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#1. Capacitance in vacuum is:
#2. In Millikan’s Oil Drop Method, the charge on oil drop is due to:
#3. Electric Field Intensity is:
#4. Wind Shield Wipers works on:
#6. Which device records voltage between points on human skin generated by brain?
#7. Formula of Gauss’ law is:
#8. Using Gauss’ Law, value of E between two oppositely charged parallel plates is:
#10. The Unit for electric field intensity is:
#11. The formula for electric flux is:
#13. The unit of electric flux is:
#14. Capacitor stores energy in the form of:
#17. Sharks have special organ to detect potential difference is:
#18. Using Gauss’ law, value of E for hollow sphere is:
#19. Which device records voltage between points on human skin generated by heart?
#20. Gauss’ law is applicable on:
#21. Capacitance in medium is:
#24. Surface charge density σ =
#25. Charging and Discharging of capacitor is a process:
#26. Gauss’ law applied to find:
#27. Gaussian surface is:
#28. Capacitor is used to store:
#30. Electric Field Intensity Works on:
#31. In Millikan’s Oil drop method, charge on oil droplet is integral multiple of:
#32. In Millikan’s Oil Drop Method, the magnitude of charge q =
#33. Sharks can detect potential difference upto:
#34. Electric flux will be minimum if:
#35. In Millikan’s Oil Drop Method, the charge on oil drop is:
#36. Gauss’ law for unit positive charge is:
#37. Maximum charge deposits on plate of capacitor is:
#39. The branch of Physics deals with charges at rest is:
#41. Using Gauss’ law, value of E for infinite sheet is:
#42. Time constant of charging and discharging of a capacitor t =
#44. Electric flux will be maximum if: