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 unit of capacitance is:

A. Farad
B. Coulomb
C. Volt
D. Joule

Answer: Farad

A capacitor stores energy in the form of:

A. An electric field
B. A magnetic field
C. Thermal energy
D. Kinetic energy

Answer: An electric field

The force between two like charges is:

A. Repulsive
B. Attractive
C. Zero
D. Neutral

Answer: Repulsive

A material that does not allow electric charges to flow freely is known as:

A. An insulator
B. A conductor
C. A semiconductor
D. A superconductor

Answer: An insulator

The electric potential inside a conductor in electrostatic equilibrium is:

A. Constant
B. Zero
C. Directly proportional to the electric field
D. Inversely proportional to the electric field

Answer: Constant

Which law is used to calculate the total electric flux through a closed surface?

A. Gauss's law
B. Ohm's law
C. Faraday's law
D. Coulomb's law

Answer: Gauss's law

The capacitance of a capacitor depends on:

A. The geometry of the plates
B. The speed of electrons
C. The temperature of the conductor
D. The color of the plates

Answer: The geometry of the plates

Electric field lines never:

A. Intersect
B. Curve
C. Originate from positive charges
D. Terminate on negative charges

Answer: Intersect

The electric potential at a point is a measure of:

A. The work done in bringing a unit positive charge from infinity to that point
B. The charge stored at that point
C. The electric flux through that point
D. The current passing through that point

Answer: The work done in bringing a unit positive charge from infinity to that point