Which of the following is a good conductor of electricity? MCQ with Answer and Explanation

Which of the following is a good conductor of electricity?
A. Copper
B. Wood
C. Rubber
D. Glass
Answer: Option A
Solution (By JKExamLibrary)
Copper has free electrons, very low resistivity, excellent conductor. Glass, rubber, wood are insulators. Silver best conductor, but copper widely used. Graphite conducts but non-metal.

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Practice More Physics Questions

Question #1
A tuning fork produces 4 beats per second when sounded with a 256 Hz standard fork. When a little wax is attached to the tuning fork, the beat frequency drops to 2 beats per second. The original frequency of the tuning fork was:
A. 258 Hz
B. 252 Hz
C. 260 Hz
D. 254 Hz

Correct Answer: Option C


Explanation:
Beat frequency is the absolute difference between two frequencies. Given 4 beats with 256 Hz, the unknown fork is either 256+4=260 Hz or 256-4=252 Hz. Adding wax increases mass, which strictly lowers the frequency of a fork. If it was 252 Hz, lowering it would increase the gap from 256, increasing beats. If it was 260 Hz, lowering it brings it closer to 256, decreasing beats to 2. Thus, it was originally 260 Hz.

This question belongs to: Science Physics
Question #2
The power of a lens is -2 D. This lens is:
A. Concave lens of focal length 50 cm
B. Concave lens of focal length 200 cm
C. Convex lens of focal length 200 cm
D. Convex lens of focal length 50 cm

Correct Answer: Option A


Explanation:
Power P = 1/f (in meters). P = -2 D ⇒ f = 1/(-2) = -0.5 m = -50 cm. Negative focal length indicates diverging (concave) lens. Convex lenses have positive power. Option A correctly states concave lens with |f| = 50 cm. Memory tip: 'Negative power = concave lens; f(in cm) = 100/P(in D)'. This direct application of lens power definition is common in competitive exams. Always convert diopters to focal length carefully, noting sign convention: negative for diverging lenses, positive for converging.

This question belongs to: Science Physics
Question #3
Polarization proves light is:
A. Longitudinal wave
B. Matter wave
C. Transverse wave
D. Mechanical wave

Correct Answer: Option C


Explanation:
Polarization possible only for transverse waves (oscillations ⊥ propagation). Longitudinal waves (sound) cannot be polarized. Memory aid: 'Polarization ⇒ transverse nature; light is EM transverse wave'. Wave property frequently tested in competitive exams.

This question belongs to: Science Physics