Electrostatic Potential And Capacitance MCQs With Answers – Part 1 (Class 12 Physics)
GKaim: Measure. Improve. Achieve.

Electrostatic Potential and Capacitance MCQs with Answers – Part 1 (Class 12 Physics)

Timer: Off
Random: Off

1. The central idea of electrostatic potential is best described as:
ⓐ. A material property that exists only inside capacitors
ⓑ. A flow of charge through a conductor per second
ⓒ. A force per unit charge that always has a direction
ⓓ. A work-related scalar quantity in an electric field
2. A value \(V=-20\,\text{V}\) is written for a point near a charged body. What does the negative sign show?
ⓐ. The electric field at that point must be zero
ⓑ. The potential is a vector directed toward the charged body
ⓒ. The potential is below the chosen zero level
ⓓ. The potential has a direction opposite to the electric field
3. Potential difference between two points is most directly connected with:
ⓐ. Work done per unit charge between two points
ⓑ. Surface area of a charged conductor per unit charge
ⓒ. Charge stored per unit potential difference by a conductor pair
ⓓ. Force acting per unit positive test charge at one point only
4. In a basic circuit idea, a capacitor is mainly introduced as a device that:
ⓐ. Produces charge continuously from empty space
ⓑ. Stores equal kinds of charge on both plates
ⓒ. Stores charge across a potential difference
ⓓ. Converts electric field into magnetic field permanently
5. A charged metal dome gives a spark when the electric field in nearby air becomes very large. As a broad electrostatic example, this situation mainly connects:
ⓐ. Resistance, current flow, and steady heating
ⓑ. Potential, field, and stored charge
ⓒ. Magnetic field, induction, and pole strength
ⓓ. Thermal pressure, expansion, and wave speed
6. Match each quantity with its basic physical idea.
Column IColumn II
P. Electric field \(\vec{E}\)1. Charge-storing ability per unit potential difference
Q. Electrostatic potential \(V\)2. Force effect per unit positive test charge
R. Capacitance \(C\)3. Work or energy idea per unit charge
S. Work \(W\)4. Energy transferred by a force during displacement
ⓐ. P-2, Q-3, R-1, S-4
ⓑ. P-2, Q-1, R-3, S-4
ⓒ. P-3, Q-2, R-1, S-4
ⓓ. P-4, Q-3, R-2, S-1
7. The row that pairs a quantity with its SI unit is:
RowQuantitySI unit
PWork \(W\)\(\text{J}\)
QCharge \(q\)\(\text{V}\)
RPotential \(V\)\(\text{F}\)
SCapacitance \(C\)\(\text{C}\)
ⓐ. Row R only
ⓑ. Row Q only
ⓒ. Row S only
ⓓ. Row P only
8. The relation \(1\,\text{V}=1\,\_\_\_\_\) is completed by:
ⓐ. \(\text{J C}^{-1}\)
ⓑ. \(\text{C V}^{-1}\)
ⓒ. \(\text{N C}^{-1}\)
ⓓ. \(\text{C J}^{-1}\)
9. A charge of \(2\,\text{C}\) is moved between two points, and the work associated with the movement is \(10\,\text{J}\). The potential difference calculated from work per unit charge is:
ⓐ. \(10\,\text{V}\)
ⓑ. \(2\,\text{V}\)
ⓒ. \(20\,\text{V}\)
ⓓ. \(5\,\text{V}\)
10. If a force does positive work during the displacement of a charge, the energy transfer by that force is:
ⓐ. Zero because electrostatic quantities are scalar
ⓑ. From the force to the moving charge system
ⓒ. Opposite to the displacement in every case
ⓓ. Always independent of the sign of the charge
Subscribe
Notify of
guest
0 Comments
Scroll to Top