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Test: Torque - JEE MCQ


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10 Questions MCQ Test - Test: Torque

Test: Torque for JEE 2024 is part of JEE preparation. The Test: Torque questions and answers have been prepared according to the JEE exam syllabus.The Test: Torque MCQs are made for JEE 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Torque below.
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Test: Torque - Question 1

A stone of mass m tied to a string of length l is rotating along a circular path with constant speed v. The torque on the stone is

Detailed Solution for Test: Torque - Question 1

Hence the torque is zero .Because the line of action of the tension passes through the centre .So lever arm of tension is zero So the torque acting is also zero .

Test: Torque - Question 2

An engine develops a power of 360 kw, when rotating at 30 revolutions per second. The Torque required to deliver this power is

Detailed Solution for Test: Torque - Question 2

The power delivered by the torque τ exerted on rotating body is given by
P=τω or τ=P/ω
Here P=360KW=360000 Watt
ω=30 x 2π rad/sec,
ω=60π rad/sec
now,
τ=360000 /60×3.14Nm
τ= 1910.8 Nm

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Test: Torque - Question 3

Which of the following represents the correct relationship between angular displacement and torque?

Detailed Solution for Test: Torque - Question 3

Torque of a bar is proportional to force applied tangential to bar, and hence torque can be treated as direct proportional with angular displacement.

Test: Torque - Question 4

 Which of the following is an axial vector?

Detailed Solution for Test: Torque - Question 4

Torque is an axial vector. Axial vectors are those vectors which represent rotational effect and act along the axis of rotation. E.g. angular velocity, torque, angular momentum etc. are axial vectors.

Test: Torque - Question 5

Moment of inertia of a solid sphere of mass M and radius R is ______

Detailed Solution for Test: Torque - Question 5

Fact.

Test: Torque - Question 6

A wheel having moment of inertia 3.5 kgm2 rotates about the vertical axis. The torque required to produce an angular acceleration of 25rad/s2 in the wheel is

Detailed Solution for Test: Torque - Question 6

Torque = moment of inertia × angular acceleration
3.5 × 25 =87.5 Nm

Test: Torque - Question 7

For a system to be in equilibrium, the net torques acting on it must balance. This is true only if the torque are taken about

Detailed Solution for Test: Torque - Question 7

For a system to be in equilibrium, the net torques acting on it must indeed balance. This condition of equilibrium applies when calculating torques about any point on or outside the system, not just specific locations like the center of the system or its center of mass. This principle is a fundamental aspect of rotational dynamics and equilibrium analysis in physics.

Test: Torque - Question 8

The rotational analog to the expression F = ma in linear motion is ___________in rotational motion.

Detailed Solution for Test: Torque - Question 8

Force (in linear) = torque (in rotational)
Mass (in linear motion) = moment of inertia ( l ) (in rotational motion)
Acceleration(a) (in linear) = angular acceleration (α) (in rotational)
F = ma (in linear) and torque = Iα (in rotational)

Test: Torque - Question 9

Rotational analogue of force of linear motion is

Detailed Solution for Test: Torque - Question 9

Rotational analogue of force in linear motion is torque. Torque is the turning effect of force.

Test: Torque - Question 10

When no external Torque acts on a system, what is conserved

Detailed Solution for Test: Torque - Question 10

τ = dI/dt
If τ = 0 then L is conserved.

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