A piece of ice of density 0.9 g/cm³ floats in water. Fraction of volume above water is MCQ with Answer and Explanation

A piece of ice of density 0.9 g/cm³ floats in water. Fraction of volume above water is
A. 0.5
B. 0.2
C. 0.1
D. 0.9
Answer: Option C
Solution (By JKExamLibrary)
Submerged fraction = ρ_ice/ρ_water = 0.9, above = 0.1 (10%).

This question belongs to: Science Physics

Discuss this Question (0)

No comments yet. Be the first to start the discussion!

Practice More Physics Questions

Question #1 Report Error
The instrument used to view distant objects is
A. Endoscope
B. Microscope
C. Periscope
D. Telescope

Correct Answer: Option D


Explanation:
Telescope (refracting/reflecting) makes distant objects appear nearer, magnified. Microscope for tiny near objects. Periscope uses mirrors to see over obstacles. Endoscope medical.

This question belongs to: Science Physics
Question #2 Report Error
Which of the following colors of light has the lowest frequency?
A. Blue
B. Violet
C. Green
D. Red

Correct Answer: Option D


Explanation:
In the visible spectrum (VIBGYOR), wavelength increases from Violet to Red. Since speed = frequency × wavelength (c = fλ), frequency is inversely proportional to wavelength. Red light has the longest wavelength and therefore the lowest frequency and lowest energy. Violet has the shortest wavelength and highest frequency.

This question belongs to: Science Physics
Question #3 Report Error
A satellite moves in a circular orbit around the Earth at a constant speed. The work done by the gravitational force on the satellite is:
A. Negative
B. Maximum
C. Zero
D. Positive

Correct Answer: Option C


Explanation:
Work is defined as W = F.d.cos(θ). For a satellite in a circular orbit, the gravitational force acts as the centripetal force, directing entirely towards the center of the Earth. The displacement of the satellite at any instant is tangential. Since the angle between force and displacement is exactly 90°, cos(90°) = 0, meaning zero work is done.

This question belongs to: Science Physics