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Past Year Questions: Friction - Mechanical Engineering MCQ


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10 Questions MCQ Test - Past Year Questions: Friction

Past Year Questions: Friction for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Past Year Questions: Friction questions and answers have been prepared according to the Mechanical Engineering exam syllabus.The Past Year Questions: Friction MCQs are made for Mechanical Engineering 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Past Year Questions: Friction below.
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Past Year Questions: Friction - Question 1
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A wheel of mass m and radius r is in accelerated rolling motion without slip under a steady axle torque T. If the coefficient of kinetic friction is μ, the friction force from the ground on the wheel is

[1996]

Past Year Questions: Friction - Question 2
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A steel wheel of 600 mm diameter on a horizontal steel rail. It carries a load of 500 N. The coefficient of rolling resistance is 0.3 The force in Newton, necessary to roll the wheel along the rail is

[2000]

Detailed Solution for Past Year Questions: Friction - Question 2

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Past Year Questions: Friction - Question 3
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The ratio of tension on the tight side to that of the slack ride in a flat belt drive is

[2000]

Detailed Solution for Past Year Questions: Friction - Question 3

Past Year Questions: Friction - Question 4
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The figure shows a pair of pin-jointed grippertongs holding an object weighing 2000 N. The coefficient of friction (μ) at the gripping surface is 0.1. XX is the line of action of the input force and YY is the line of application of gripping force. If the pin- joint is assumed to be frictionless, the magnitude of force F required to hold the weight is

[2004]
Detailed Solution for Past Year Questions: Friction - Question 4


For vertical equilibrium 2Fr = 2000 N
Fr = 1000 N
Fr = m × RN
1000 = 0.1 RN
= 10000 N.
Taking moment about P,
we have

0.3 × F = RN × 0.150
0.3F = 10000 × 0.150

= 5000 N.

Past Year Questions: Friction - Question 5
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Two books of mass 1 kg each are kept on a table, one over the other. The coefficient of friction on every pair of contacting surfaces is 0.3. The lower book is pulled with a horizontal force F. The minimum value of F for which slip occurs between the two books is

[2005]
Detailed Solution for Past Year Questions: Friction - Question 5


At that condition,

Fmin – 8.829 = mBaB
Fmin = 8.829 + 1 × 2.943
Fmin = 11.772 N

Past Year Questions: Friction - Question 6
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A block of mass M is released from point P on a rough inclined plane with inclination angle θ, shown in the figure below. The coefficient of friction is μ. If μ < tan θ, then the time taken by the block to reach another point Q on the inclined plane, where PQ = s, is

[2007]
Detailed Solution for Past Year Questions: Friction - Question 6

Past Year Questions: Friction - Question 7
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​A block weighing 981 N is resting on a horizontal surface. The coefficient of friction between the block and the horizontal surface is m = 0.2. A vertical cable attached to the block provides partial support as shown. A man can pull horizontally with a force of 100 N. What will be the tension, T (in N) in the cable if the man is just able to move the block to the right?

[2009]
Detailed Solution for Past Year Questions: Friction - Question 7

Net normal force on block
N = W – T
=  981 – T
Frictional force,f = μN
Under equilibrium, i.e. when man is just able to move the block
μN = 100
⇒ μ(981-T) = 100
⇒ 0.2 (981 – T) = 100

= 981 – 500
= 481N

Past Year Questions: Friction - Question 8
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​A 1 kg block is resting on a surface with coefficient of friction m = 0.1. A force of 0.8 N is applied to the block as shown in the figure. The friction force is

[2011]
Detailed Solution for Past Year Questions: Friction - Question 8

Limiting friction force between block and the surface is 0.98 N. But applied force is 0.8 N which is less than the limiting friction force. Therefore friction force for the given case is 0.8 N.

Past Year Questions: Friction - Question 9
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A block R of mass 100 kg is placed on a block S of mass 150 kg as shown in the figure. Block R is tied to the wall by a massless and inextensible string PQ. If the coefficient of static friction for all surfaces is 0.4, the minimum force F(in kN) needed to move the block S is

[2014, Set-1]
Detailed Solution for Past Year Questions: Friction - Question 9


F = μ(Ws + WR) + μWR
F = μ(Ws + 2WR)
= 0.4 (150 + 2 × 1000)9.81 = 1.37 kN

Past Year Questions: Friction - Question 10
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A wardrobe(mass 100 kg, height4m, width 2 m, depth 1 m), symmetric about the Y-Y axis, stands on a rough level floor as shown in the figure. A force P is applied at mid-height on the wardrobe so as to tip it about point Q without slipping. What are the minimum values of the force (in newton) and the static coefficient of friction μ between the floor and the wardrobe, respectively?

[2014, Set-4]
Detailed Solution for Past Year Questions: Friction - Question 10

Taking moment about Q, ∑MQ = 0
⇒ W x 1m = P x 2m

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