NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids are part of NCERT Exemplar Class 11 Physics. Here we have given NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids.

NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids

Single Correct Answer Type
Mechanical Properties Of Solids Exemplar NCERT Class 11

Q1. Modulus of rigidity of ideal liquids is
(a) infinity
(b) zero
(c) unity
(d) some finite small non-zero constant value
Sol: (b) Key concept: Modulus of Rigidity:
Within limits of proportionality, the ratio of tangential stress to the shearing strain is called modulus of rigidity of the material of the body and is denoted by η
Mechanical Properties Of Solids Exemplar NCERT Class 11
In this case the shape of a body changes but its volume remains unchanged.
Consider a cube of material fixed at its lower face and acted upon by a tangential force F at its upper surface having area A.
Only solids can exhibit a shearing as these have definite shape.

In liquids,η = 0
So, the frictional (viscous) force cannot exist in case of ideal fluid and since they cannot sustain shearing stress or tangential forces are zero, so there is no stress developed.

Mechanical Properties Of Solids Ncert Exemplar Solutions Class 11

Q2. The maximum load a wire can withstand without breaking, when its length is reduced to half of its original length, will
(a) be double (b) be half
(c) be four times (d) remain same
Sol: (d)
When the wire is loaded beyond the elastic limit, then strain increases much more rapidly. The maximum stress corresponding to B (see stress—strain curve) after which the wire begin to flow and breaks, is called breaking stress or tensile strength and the force by application of which the wire breaks is called the breaking force.
(i) Breaking force depends upon the area of cross-section of the wire, i.e. Breaking force ∝ A
Breaking force = P x A
Here P is a constant of proportionality and known as breaking stress.
(ii) Breaking stress is a constant for a given material and it does not depend upon the dimension (length or thickness) of wire.
(iii) If a wire of length L is cut into two or more parts, then again its each part can hold the same weight as breaking force is independent of the length of wire.

Mechanical Properties Of Solids Ncert Exemplar Class 11

Q3. The temperature of a wire is doubled. The Young’s modulus of elasticity
(a) will also double
(b) will become four times
(c) will remain same
(d) will decrease
Sol:(d)
Key concept: Youngs modulus (Y)
It is defined as the ratio of normal stress to longitudinal strain within limit of proportionality.
Mechanical Properties Of Solids Ncert Exemplar Solutions Class 11

As Y ∝ 1/ ∆T

When temperature increases ∆T increases, hence Y decreases.

Q4. A spring is stretched by applying a load to its free end. The strain produced in the spring is
(a) volumetric
(b) shear
(c) longitudinal and shear
(d) longitudinal
Mechanical Properties Of Solids Ncert Exemplar Class 11
Sol: (c) According to the diagram where a spring is suspended with a fixed rigid support. Now a load is attached with the lower end of that spring. So, it is stretched by applying a load to its free end. Clearly the length and shape of the spring changes and the weight of the load behaves as a deforming force.
The change in length corresponds to longitudinal strain and change in shape corresponds to shearing strain.

Q5. A rigid bar of mass M is supported symmetrically by three wires each of length /. Those at each end are of copper and the middle one is of iron. The ratio of their diameters, if each is to have the same tension, is equal to
NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids

Sol: (b) As the bar is supported symmetrically by the three wires, therefore extension in each wire is same.
Let T be the tension in each wire and diameter of the wire is D, then Young’s modulus is
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Q6. A mild steel wire of length 2L and cross-sectional area A is stretched, well within elastic limit, horizontally between two pillars (figure ). A mass m is suspended from the mid-point of the wire. Strain in the wire is
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Q7. A rectangular frame is to be suspended symmetrically by two strings of equal length on two supports (figure). It can be done in one of the following three ways:
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The tension in the strings will be
(a) the same in all cases
(b) least in (i)
(c) least in (ii)
(d) least in (iii)
Sol:(c) According to the FBD diagram of the rectangular frame. Let M be the mass of rectangular frame and 0be the angle which the tension T in the string makes with the horizontal
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NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids-6
Q8. Consider two cylindrical rods of identical dimensions, one of rubber and the other of steel. Both the rods are fixed rigidly at one end to the roof. A mass M is attached to each of the free ends at the centre of the rods.
(a) Both the rods will elongate but there shall be no perceptible change in shape.
(b) The steel rod will elongate and change shape but the rubber rod will only elongate.
(c) The steel rod will elongate without any perceptible change in shape, but the rubber rod will elongate and the shape of the bottom edge will change to an ellipse.
(d) The steel rod will elongate, without any perceptible change in shape, but the rubber rod will elongate with the shape of the bottom edge tapered to a tip at the centre.
Sol: (d)
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According to the diagram shown below in which a mass AT is attached at the centre of each rod, then both rods will be elongated. But due to different elastic properties of material the steel rod will elongate without making any perceptible change in shape, but the rubber rod will elongate with the shape of the bottom edge tapered to a tip at the centre.

More Than One Correct Answer Type
Q9. The stress-strain graphs for two materials are shown in figure(assume same scale).
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(a) Material (ii) is more elastic than material (i) and hence material (ii) is more brittle
(b) Materials (i) and (ii) have the same elasticity and the same brittleness.
(c) Material (ii) is elastic over a larger region of strain as compared to (i).
(d) Material (ii) is more brittle than material (i).
Sol: (c, d)
Key concept: Representation of different points on Stress-Strain graph:
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When the strain is small (< 2%) (i.e., in region OP) stress is proportional to strain. This is the region where the so called Hooke’s law is obeyed. The point P is called limit of proportionality and slope of line OP gives the Young’s modulus Y of the material of the wire. If 6is the angle of OP from strain axis, then Y= tan θ.
If the strain is increased a little bit, i.e. in the region PE, the stress is not proportional to strain. However, the wire still regains its original length after the removal of stretching force.
This behaviour is shown up to point E known as elastic limit or yield- point. The region OPE represents the elastic behaviour of the material of wire. ‘
” If the wire is stretched beyond the elastic limit E, i.e. between EA, the strain increases much more rapidly and if the stretching force is removed the wire does not come back to its natural length. Some permanent increase in length takes place.
If the stress is increased further by a very small increase in it a very large increase in strain is produced (region AB) and after reaching point B, the strain increases even if the wire is unloaded and ruptures at C. In the region BC the wire literally flows. The maximum stress corresponding to B after which the wire begins to flow and breaks is called breaking or tensile strength. The region EABC represents the plastic behaviour of the material of wire.
Material having more ultimate tensile strength will be elastic over larger region.
So, from graph (i) linear limit vanishes soon and for small stress there is large strain as compared to graph (ii).
Hence, material (ii) is more elastic over a large region of strain as compared to (i). So, the ultimate tensile strength for material (ii) is greater than (i).
A material is said to be more brittle if its fracture point is more closer to ultimate strength point.
Hence material (ii) is more brittle than material (i).

Q10. A wire is suspended from the ceiling and stretched under the action of a weight F suspended from its other end. The force exerted by the ceiling on it is equal and opposite to the weight.
(a) Tensile stress at any cross-section A of the wire is F/A.
(b) Tensile stress at any cross-section is zero.
(c) Tensile stress at any cross-section A of the wire is 2F/A.
(d) Tension at any cross-section A of the wire is F.
Sol. (a, d)
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According to the diagram a wire is stretched under the j
action of a weight F suspended from its other end.
Clearly, forces at each cross-section is F.
Now applying formula,

Tensile stress = Force applied/Area of cross-section = F/A
Tension = Applied force = F

 

Q11. A rod of length l and negligible  mass is suspended at its two ends by two wires of steel (wire A) and  aluminium (wire B) of equal lengths (figure).The cross-sectional areas of wires A and B are 1.0 mm2 and 2.0 mm2, respectively.(YAl= 70 x 109 Nm-2 and Tsteel = 200 x 109Nm-2)

  • Mass m should be suspended close to wire A to have equal stresses in both the wires.
  • Mass m should be suspended close to B to have equal stresses in both the wires.
  • Mass m should be suspended at the middle of the wires to have equal stresses in both the wires.
  • Mass m should be suspended close to wire A to have equal strain in both wires.

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Sol: (b, d) According to the diagram a massless rod is suspended at its two ends by two wires of steel (wire A) and aluminum (wire B) of equal lengths.
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Q12. For an ideal liquid,
(a) the bulk modulus is infinite
(b) the bulk modulus is zero
(c) the shear modulus is infinite
(d) the shear modulus is zeroNCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids-14

Q13. A copper and a steel wire of the same diameter are connected end to end. A deforming force F is applied to this composite wire which causes a total elongation of 1 cm. The two wires will have
(a) the same stress
(b) different stress
(c) the same strain
(d) different strain

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Very Short Answer Type Questions
Q14. The Young’s modulus for steel is much more than that for rubber. For the same longitudinal strain, which one will have greater tensile stress?
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Q15. Is stress a vector quantity?
Sol: Stress = Magnitude of internal reaction force / Area of cross-section
Hence, stress is not a scalar quantity not a vector quantity, it is a tensor quantity.

Q16. Identical springs of steel and copper are equally stretched. On which, more work will have to be done?
Sol: Key concept: Work Done in stretching a Wire or Spring:
In stretching a wire work is done against internal restoring forces. This work is stored in the wire as elastic potential energy or strain energy.
If a force F acts along the length L of the wire of cross-section A and stretches it by x, thenNCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids-17
Q17. What is the Young’s modulus for a perfect rigid body?
Sol: According to Hooke’s law
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Q18. What is the Bulk modulus for a perfect rigid body?
Sol: Bulk modulus is given by
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For perfectly rigid body, change in volume AV = 0, therefore volumetric strain is zero.
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Hence, bulk modulus for a perfectly rigid body is infinity

Short Answer Type Questions
Q19. A wire of length L and radius r is clamped rigidly at one end. When the other end of the wire is pulled by a force f its length increases by l. Another wire of the same material of length 2L and radius 2r, is pulled by a force 2 f Find the increase in length of this wire.
Sol: We have to apply Hooke’s law to compare the extension in each wire. According to the diagram which shows the situation.
Now, Young’s modulus

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NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids-21
Solu:
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Q21. To what depth must a rubber ball be taken in deep sea so that its volume is decreased by 0.1%. (The bulk modulus of rubber is 9.8 x 108 N/m2; and the density of sea water is 103 kg/m3)
Sol: According to the problem, Bulk modulus of rubber (B) = 9.8 x 108 N/m2 Density of sea water (p) = 103 kg/m3 Percentage decrease in volume

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Q22. A truck is pulling a car out of a ditch by means of a steel cable that is 9.1 m long and has a radius of 5 mm. When the car just begins to move, the tension in the cable is 800 N. How much has the cable stretched? (Young’s modulus for steel is 2 x 1011 N/m2)

Sol. According to the problem,
Length of steel cable l = 9.1 m
Radius r = 5 mm = 5 x 10~3 m
Tension in the cable F = 800 N
Young’s modulus for steel Y= 2 x 1011 N/m2
Change in length ∆l = ?

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Q23. Two identical solid balls, one of ivory and the other of wet-clay, are dropped from the same height on the floor. Which one will rise to a greater height after striking the floor and why?
Sol: Since, ivory ball is more elastic than wet-clay ball, therefore, it tends to regain its original shape quickly. Due to this reason, more energy and momentum is transferred to the ivory ball in comparison to the wet-clay ball and hence, ivory ball will rise higher after striking the floor even though both are dropped from the same height.

Long Answer Type Questions
Q24. Consider a long steel bar under a tensile stress due to force F acting at the edges along the length of the bar (figure). Consider a plane making an angle 8 with the length. What are the tensile and shearing stresses on this plane?
(a) For what angle is the tensile stress a maximum?
(b) For what angle is the shearing stress a maximum?
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Sol: According to the problem force F is applied along horizontal, so we resolve it in two perpendicular components—one is parallel to the inclined plane and other one is perpendicular to the inclined plane as shown in the diagram. Now, we can easily calculate the tensile and shearing stress. Here,
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NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids-27

Important point: Here we are not applying direct formula for stress. Because to analyze different types of stresses, we have to divide the force in components. In normal stress, the force is applied normal to the surface. But in shear stress deforming force is applied tangential to one of the faces

Q25. A steel rod of length 21, cross-sectional area A and mass M is set rotating in a horizontal plane about an axis passing through the centre. If Y is the Young’s modulus for steel, find the extension in the length of the rod. (Assume the rod is uniform)
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NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids-30

Q26.An equilateral triangle ABC is formed by two Cu rods AB and BC and one At It is heated in such a way that temperature of each rod increases by ∆T. Find change in the angle ABC. [Coefficient of linear expansion for Cu is α1 coefficient of linear expansion for Al is α2]

Sol: As the temperature of the rods increases length of each side will change, hence the angle corresponding to any vertex also changes as shown in the diagram.

Before heating, AB = BC = CA = l

After heating temperature of each rod is changed by ∆T and sides of ∆ABC is changed.

Let AB = l1,BC = l3,CA = l2 Using cosine formula,
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Q27. In nature, the failure of structural members usually result from large torque because of twisting or bending rather than due to tensile or compressive strains. This process of structural breakdown is called buckling and in cases of tall cylindrical structures like trees, the torque is caused by its own weight bending the structure. Thus, the vertical through the centre of gravity does not fall within the base. The elastic torque caused because of this bending about the central axis of the tree is given by YπR4/  4R. Y is the Young’s modulus, r is the radius of the trunk and is the radius of curvature of the bent surface along the height of the tree containing the centre of gravity (the neutral surface). Estimate the critical height of a tree for a given radius of the trunk.
Sol: According to the problem, the elastic torque or the bending torque is given and we have to find the torque caused by the weight due to bending.
The diagram of the given situation is as shown.
The bending torque on the trunk of radius r of tree = YπR4/  4R
where R the radius of curvature of the bent surface.
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NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids-34
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Q28. A stone of mass m is tied to an elastic string of negligible mass and spring constant k. The unstretched length of the string is L and has negligible mass. The other end of the string is fixed to a nail at a point P. Initially the stone is at the same level as the point P. The stone is dropped vertically from point P.
(a) Find the distance y from the top when the mass comes to rest for an instant, for the first time.
(b) What is the maximum velocity attained by the stone in this drop?
(c) What shall be the nature of the motion after the stone has reached its lowest point?
Sol:In this problem, the given string is elastic. Consider the diagram the stone is dropped from point P.
(a) When the stone is dropped, then it covers distance Y before coming to rest, for the first instant.
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Y=L + (Y-L)
First it covers the distance L equal to length of string distance in free fall and a further distance (Y – L) due to extension in the string. So it covers a total distance Y until it instantaneously comes to rest at Q.
We have to find y, so by applying energy conservation principle,
Loss in potential energy of stone = Gain in elastic potential energy in string

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NCERT Exemplar Class 11 Physics Chapter 8 Mechanical Properties of Solids-38
(b) In SHM, the maximum velocity is attained when the body passes, through the “equilibrium, position”, i.e., when the instantaneous acceleration is zero. That is mg -kx = 0, where .r is the extension from L.
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(c) When stone is at the lowest point Q, i.e. at instantaneous distance Y from P from where the stone is dropped, then equation of motion of the stone is
mass x acceleration = net force on the stone
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