Electrostatics MCQs | STS IBA FPSC BPSC SPSC PPSC Mcqs Test Preparation

Electrostatics with Specialized Online Physics Exams

Advance your mastery of Electrostatics with targeted online physics exams designed to enhance your preparation. These resources provide an in-depth review of basic physics principles related to electric charges, fields, and potentials. Dive into practice tests and MCQ answers to solidify your understanding of electrostatic phenomena. Focusing on force and motion MDCAT MCQs and other relevant practice questions can significantly boost your performance in this critical area.

For excelling in physical tests, particularly the MDCAT, engage with high-quality practice MCQs specifically covering Electrostatics. Utilize Pak MCQs to refine your skills and build confidence. By leveraging these specialized online tools, you’ll ensure thorough preparation and achieve top results in your Electrostatics exams.

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The electric potential difference across a conductor is:

A. Equal to the work done per unit charge
B. Equal to the force experienced by the charge
C. Proportional to the electric field
D. Inversely proportional to the length of the conductor

Answer: Equal to the work done per unit charge

The capacitance of a capacitor is given by:

A. C = Q/V
B. C = V/Q
C. C = Q * V
D. C = V / (Q * R)

Answer: C = Q/V

The electric potential at the surface of a charged conductor is:

A. Highest
B. Lowest
C. The same as the potential at infinity
D. Zero

Answer: Highest

The electric field inside a uniformly charged solid sphere is:

A. Directly proportional to the distance from the center
B. Inversely proportional to the distance from the center
C. Zero
D. Constant

Answer: Directly proportional to the distance from the center

If a charged capacitor is connected across a resistor, the charge on the capacitor:

A. Decreases over time
B. Increases over time
C. Remains constant
D. Oscillates

Answer: Decreases over time

The capacitance of a parallel plate capacitor with a dielectric material between the plates is:

A. Higher than without the dielectric material
B. Lower than without the dielectric material
C. The same as without the dielectric material
D. Depends on the charge on the plates

Answer: Higher than without the dielectric material

The electric field inside a conductor in equilibrium is:

A. Zero
B. Constant
C. Uniform
D. Varying

Answer: Zero

The electric potential energy of a system of two charges is zero when:

A. The charges are infinitely far apart
B. The charges are at the same point
C. The charges are opposite
D. The charges are equal and at the same distance

Answer: The charges are infinitely far apart

The electric field inside a charged hollow sphere is:

A. Zero
B. Uniform
C. Varying with distance from the center
D. Constant

Answer: Zero