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NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids

Q8.1: A steel wire of length 4.7 m and cross-sectional area 3.0 x 10–5 m2 stretches by the same amount as a copper wire of length 3.5 m and cross-sectional area of 4.0 x 10–5 m2 under a given load. What is the ratio of the Young’s modulus of steel to that of copper?
Ans: Length of the steel wire, L1 = 4.7 m
Area of cross-section of the steel wire, A1 = 3.0 x 10–5 m2
Length of the copper wire, L2 = 3.5 m
Area of cross-section of the copper wire, A2 = 4.0 x 10–5 m2
Change in length = ΔL1 = ΔL2 = ΔL
Force applied in both the cases = F
Young’s modulus of the steel wire:
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids .....(i)
Young’s modulus of the copper wire:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Dividing (i) by (ii), we get:
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
The ratio of Young’s modulus of steel to that of copper is 1.79 : 1.

Q8.2:  Figure 8.9 shows the strain-stress curve for a given material. What are (a) Young’s modulus and (b) approximate yield strength for this material?

NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids

Ans: (a) It is clear from the given graph that for stress 150 x 106 N/m2, strain is 0.002.
∴Young’s modulus, Y 
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids 
Hence, Young’s modulus for the given material is 7.5 x1010 N/m2.
(b) The yield strength of a material is the maximum stress that the material can sustain without crossing the elastic limit.
It is clear from the given graph that the approximate yield strength of this material is    300x106 Nm/2 or 3 x 108 N/m2.

Q8.3: The stress-strain graphs for materials A and B are shown in Fig. 9.12.

NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids

The graphs are drawn to the same scale.
(a) Which of the materials has the greater Young’s modulus?
(b) Which of the two is the stronger material?
Ans: (a) A (b) A
(a) For a given strain, the stress for material A is more than it is for material B, as shown in the two graphs.
Young’s modulus NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
For a given strain, if the stress for a material is more, then Young’s modulus is also greater for that material. Therefore, Young’s modulus for material A is greater than it is for material B.
(b) The amount of stress required for fracturing a material, corresponding to its fracture point, gives the strength of that material. Fracture point is the extreme point in a stress-strain curve. It can be observed that material A can withstand more strain than material B. Hence, material A is stronger than material B.

Q8.4: Read the following two statements below carefully and state, with reasons, if it is true or false.
(a) The Young’s modulus of rubber is greater than that of steel;
(b) The stretching of a coil is determined by its shear modulus.
Ans: (a) False (b) True
(a) For a given stress, the strain in rubber is more than it is in steel.
Young’s modulus
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
For a constant stress:
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Hence, Young’s modulus for rubber is less than it is for steel.
(b) Shear modulus is the ratio of the applied stress to the change in the shape of a body. The stretching of a coil changes its shape. Hence, shear modulus of elasticity is involved in this process.

Q8.5: Two wires of diameter 0.25 cm, one made of steel and the other made of brass are loaded as shown in Fig. 9.13. The unloaded length of steel wire is 1.5 m and that of brass wire is 1.0 m. Compute the elongations of the steel and the brass wires.

NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids

Ans: Elongation of the steel wire = 1.49 x 10–4 m
Elongation of the brass wire = 1.3 x 10–4 m
Diameter of the wires, d = 0.25 m
Hence, the radius of the wires,   = 0.125 cm
Length of the steel wire, L1 = 1.5 m
Length of the brass wire, L2 = 1.0 m
Total force exerted on the steel wire:
F1 = (4 6) g = 10 x 9.8 = 98 N
Young’s modulus for steel:
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids 
Where,
ΔL1 = Change in the length of the steel wire
A1 = Area of cross-section of the steel wire
Young’s modulus of steel, Y1 = 2.0 x 1011 Pa
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Total force on the brass wire:
F2 = 6 x 9.8 = 58.8 N
Young’s modulus for brass:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Where,
ΔL2 = Change in length
A2 = Area of cross-section of the brass wire
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Elongation of the steel wire = 1.49 x 10–4 m
Elongation of the brass wire = 1.3 x 10–4 m

Q8.6: The edge of an aluminium cube is 10 cm long. One face of the cube is firmly fixed to a vertical wall. A mass of 100 kg is then attached to the opposite face of the cube. The shear modulus of aluminium is 25 GPa. What is the vertical deflection of this face?
Ans: Edge of the aluminium cube, L = 10 cm = 0.1 m
The mass attached to the cube, m = 100 kg
Shear modulus (η) of aluminium = 25 GPa = 25 x 109 Pa
Shear modulus, η
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Where,
F = Applied force = mg = 100 x 9.8 = 980 N
A = Area of one of the faces of the cube = 0.1 x 0.1 = 0.01 m2
ΔL = Vertical deflection of the cube
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids 
= 3.92 x 10–7 m
The vertical deflection of this face of the cube is 3.92 x10–7 m.

Q8.7: Four identical hollow cylindrical columns of mild steel support a big structure of mass 50,000 kg. The inner and outer radii of each column are 30 cm and 60 cm respectively. Assuming the load distribution to be uniform, calculate the compressional strain of each column.
Ans: Mass of the big structure, M = 50,000 kg
Inner radius of the column, r = 30 cm = 0.3 m
Outer radius of the column, R = 60 cm = 0.6 m
Young’s modulus of steel, Y = 2 x 1011 Pa
Total force exerted, F = Mg = 50000 x 9.8 N
Stress = Force exerted on a single column NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids = 122500 N
Young’s modulus, Y
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Where,
Area, A = π (R2r2) = π ((0.6)2 – (0.3)2)
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids = 7.22 x 10–7
Hence, the compressional strain of each column is 7.22 x 10–7.

Q8.8: A piece of copper having a rectangular cross-section of 15.2 mm x 19.1 mm is pulled in tension with 44,500 N force, producing only elastic deformation. Calculate the resulting strain?
Ans: Length of the piece of copper, l = 19.1 mm = 19.1 x 10–3 m
Breadth of the piece of copper, b = 15.2 mm = 15.2 x 10–3 m
Area of the copper piece:
A = l x b
= 19.1 x 10–3 x 15.2 x 10–3
= 2.9 x 10–4 m2
Tension force applied on the piece of copper, F = 44500 N
Modulus of elasticity of copper, η = 42 x 109 N/m2
Modulus of elasticity, η
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
 = 3.65 x 10–3

Q8.9: A steel cable with a radius of 1.5 cm supports a chairlift at a ski area. If the maximum stress is not to exceed 108 N m–2, what is the maximum load the cable can support?
Ans: Radius of the steel cable, r = 1.5 cm = 0.015 m
Maximum allowable stress = 108 N m–2
Maximum stress = NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
∴Maximum force = Maximum stress x Area of cross-section
= 108 x π (0.015)2
= 7.065 x 104 N
Hence, the cable can support the maximum load of 7.065 x 104 N.

Q8.10: A rigid bar of mass 15 kg is supported symmetrically by three wires each 2.0 m long. Those at each end are of copper and the middle one is of iron. Determine the ratio of their diameters if each is to have the same tension.
Ans: The tension force acting on each wire is the same. Thus, the extension in each case is the same. Since the wires are of the same length, the strain will also be the same.
The relation for Young’s modulus is given as:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Where,
F = Tension force
A = Area of cross-section
d = Diameter of the wire
It can be inferred from equation (i) that
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids 
Young’s modulus for iron, Y1 = 190 x 109 Pa
Diameter of the iron wire = d1
Young’s modulus for copper, Y2 = 110 x 109 Pa
Diameter of the copper wire = d2
Therefore, the ratio of their diameters is given as:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids

Q8.11: A 14.5 kg mass, fastened to the end of a steel wire of unstretched length 1.0 m, is whirled in a vertical circle with an angular velocity of 2 rev/s at the bottom of the circle. The cross-sectional area of the wire is 0.065 cm2. Calculate the elongation of the wire when the mass is at the lowest point of its path.
Ans: Mass, m = 14.5 kg
Length of the steel wire, l = 1.0 m
Angular velocity, ω = 2 rev/s
Cross-sectional area of the wire, a = 0.065 cm2
Let δl be the elongation of the wire when the mass is at the lowest point of its path.
When the mass is placed at the position of the vertical circle, the total force on the mass is:
F = mg  mlω2
= 14.5 x 9.8 14.5 x 1 x (2)2
= 200.1 N
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Young’s modulus for steel = 2 x 1011 Pa
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Hence, the elongation of the wire is 1.539 x 10–4 m.

Q8.12: Compute the bulk modulus of water from the following data: Initial volume = 100.0 litre, Pressure increase = 100.0 atm (1 atm = 1.013 x 105 Pa), Final volume = 100.5 litre. Compare the bulk modulus of water with that of air (at constant temperature). Explain in simple terms why the ratio is so large.
Ans: Initial volume, V1 = 100.0l = 100.0 x 10 –3 m3
Final volume, V2 = 100.5 l = 100.5 x10 –3 m3
Increase in volume, ΔV = V2V1 = 0.5 x 10–3 m3
Increase in pressure, Δp = 100.0 atm = 100 x 1.013 x 105 Pa
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Bulk modulus of air = 1.0x 105 Pa
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
This ratio is very high because air is more compressible than water.

Q8.13: What is the density of water at a depth where pressure is 80.0 atm, given that its density at the surface is 1.03 x 103 kg m–3?
Ans: Let the given depth be h.
Pressure at the given depth, p = 80.0 atm = 80 x 1.01 x 105 Pa
Density of water at the surface, ρ1 = 1.03 x 103 kg m–3
Let ρ2 be the density of water at the depth h.
Let V1 be the volume of water of mass m at the surface.
Let V2 be the volume of water of mass m at the depth h.
Let ΔV be the change in volume.
  NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
For equations (i) and (ii), we get:
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Therefore, the density of water at the given depth (h) is 1.034 x 103 kg m–3.

Q8.14: Compute the fractional change in volume of a glass slab, when subjected to a hydraulic pressure of 10 atm.
Ans: Hydraulic pressure exerted on the glass slab, p = 10 atm = 10 x 1.013 x 105 Pa
Bulk modulus of glass, B = 37 x 109 Nm–2
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
where,
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids Fractional change in volume
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Hence, the fractional change in the volume of the glass slab is 2.73 x 10–5.

Q8.15: Determine the volume contraction of a solid copper cube, 10 cm on an edge, when subjected to a hydraulic pressure of 7.0 x106 Pa.
Ans: Length of an edge of the solid copper cube, l = 10 cm = 0.1 m
Hydraulic pressure, p = 7.0 x106 Pa
Bulk modulus of copper, B = 140 x 109 Pa
Bulk modulus,  NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Where,
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids Volumetric strain
ΔV- Change in volume
V = Original volume.
Where,
= Volumetric strain
ΔV = Change in volume
V = Original volume.
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Original volume of the cube, V = l3
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Therefore, the volume contraction of the solid copper cube is 5 x 10–2 cm–3.

Q8.16: How much should the pressure on a litre of water be changed to compress it by 0.10%?
Ans: Volume of water, V = 1 L
It is given that water is to be compressed by 0.10%.
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Hulk modulus of water.  NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids 
Therefore, the pressure on water should be 2.2 x106 Nm–2.


Old NCERT Solutions


Q1: Anvils made of single crystals of diamond, with the shape as shown in Fig. 9.14, are used to investigate behaviour of materials under very high pressures. Flat faces at the narrow end of the anvil have a diameter of 0.50 mm, and the wide ends are subjected to a compressional force of 50,000 N. What is the pressure at the tip of the anvil?
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Ans: Diameter of the cones at the narrow ends, d = 0.50 mm = 0.5 x 10–3 m
Compressional force, F = 50000 N
Pressure at the tip of the anvil:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Therefore, the pressure at the tip of the anvil is 2.55 x 1011 Pa.

Q2: A rod of length 1.05 m having negligible mass is supported at its ends by two wires of steel (wire A) and aluminium (wire B) of equal lengths as shown in Fig. 9.15. The cross-sectional areas of wires A and B are 1.0 mm2 and 2.0 mm2, respectively. At what point along the rod should a mass m be suspended in order to produce (a) equal stresses and (b) equal strains in both steel and aluminium wires.
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Ans: (a) 0.7 m from the steel-wire end
(b) 0.432 m from the steel-wire end
Cross-sectional area of wire A, a1 = 1.0 mm2 = 1.0 x 10–6 m2
Cross-sectional area of wire B, a2 = 2.0 mm2 = 2.0 x 10–6 m2
Young’s modulus for steel, Y1 = 2 x 1011 Nm–2
Young’s modulus for aluminium, Y2 = 7.0 x1010 Nm–2
(a) Let a small mass m be suspended to the rod at a distance y from the end where wire A is attached.
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
If the two wires have equal stresses, then:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Where,
F1 = Force exerted on the steel wire
F2 = Force exerted on the aluminum wire
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
The situation is shown in the following figure.
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Taking torque about the point of suspension, we have:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Using equations (i) and (ii), we can write:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
In order to produce an equal stress in the two wires, the mass should be suspended at a distance of 0.7 m from the end where wire A is attached.
(b) NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
If the strain in the two wires is equal, then:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Taking torque about the point where mass m, is suspended at a distance y1 from the side where wire A attached, we get:
F1y1 = F2 (1.05 – y1)
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Using equations (iii) and (iv), we get:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
In order to produce an equal strain in the two wires, the mass should be suspended at a distance of 0.432 m from the end where wire A is attached.

Q3: A mild steel wire of length 1.0 m and cross-sectional area 0.50 x 10–2 cm2 is stretched, well within its elastic limit, horizontally between two pillars. A mass of 100 g is suspended from the mid-point of the wire. Calculate the depression at the midpoint.
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Ans: Length of the steel wire = 1.0 m
Area of cross-section, A = 0.50 x 10–2 cm2 = 0.50 x 10–6 m2
A mass 100 g is suspended from its midpoint.
m = 100 g = 0.1 kg
Hence, the wire dips, as shown in the given figure.    
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids                   
Original length = XZ
Depression = l
The length after mass m, is attached to the wire = XO OZ
Increase in the length of the wire:
Δl = (XO OZ) – XZ
Where,
XO = OZ = NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids 
  NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Expanding and neglecting higher terms, we get:
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Let T be the tension in the wire.
mg = 2T cosθ
Using the figure, it can be written as:
 NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Expanding the expression and eliminating the higher terms:
  NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Young’s modulus of steel, Y =NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Hence, the depression at the midpoint is 0.0106 m.

Q4: Two strips of metal are riveted together at their ends by four rivets, each of diameter 6.0 mm. What is the maximum tension that can be exerted by the riveted strip if the shearing stress on the rivet is not to exceed 6.9 x 107 Pa? Assume that each rivet is to carry one quarter of the load.
Ans: Diameter of the metal strip, d = 6.0 mm = 6.0 x 10–3 m
Maximum shearing stress = 6.9 x 107 Pa
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Maximum force = Maximum stress x Area
= 6.9 x 107 x π x (r) 2
= 6.9 x 107 x π x (3 x10–3)2
= 1949.94 N
Each rivet carries one quarter of the load.
∴ Maximum tension on each rivet = 4 x 1949.94 = 7799.76 N

Q5: The Marina trench is located in the Pacific Ocean, and at one place it is nearly eleven km beneath the surface of water. The water pressure at the bottom of the trench is about 1.1 x 108 Pa. A steel ball of initial volume 0.32 m3 is dropped into the ocean and falls to the bottom of the trench. What is the change in the volume of the ball when it reaches to the bottom?
Ans: Water pressure at the bottom, p = 1.1 x 108 Pa
Initial volume of the steel ball, V = 0.32 m3
Bulk modulus of steel, B = 1.6 x 1011 Nm–2
The ball falls at the bottom of the Pacific Ocean, which is 11 km beneath the surface.
Let the change in the volume of the ball on reaching the bottom of the trench be ΔV.
  NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids
Therefore, the change in volume of the ball on reaching the bottom of the trench is 2.2 x 10–4 m3.

The document NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids is a part of the NEET Course Physics Class 11.
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FAQs on NCERT Solutions Class 11 Physics Chapter 8 - Mechanical Properties of Solids

1. What are the different types of mechanical properties of solids?
Ans. The different types of mechanical properties of solids include elasticity, plasticity, ductility, hardness, and toughness.
2. How is Young's modulus related to the stiffness of a material?
Ans. Young's modulus is a measure of the stiffness of a material. A higher Young's modulus indicates a stiffer material, while a lower Young's modulus indicates a more flexible material.
3. What is the significance of the yield point in the stress-strain curve of a material?
Ans. The yield point marks the transition from elastic deformation to plastic deformation in a material. It indicates the point at which the material begins to deform permanently.
4. How does the hardness of a material affect its mechanical properties?
Ans. The hardness of a material is a measure of its resistance to deformation. A harder material is more resistant to scratching, abrasion, and indentation, making it more durable in certain applications.
5. How does the microstructure of a material affect its mechanical properties?
Ans. The microstructure of a material, including factors such as grain size and arrangement, can significantly impact its mechanical properties. For example, a fine-grained material may exhibit higher strength and toughness compared to a coarse-grained material.
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