Mechanical Properties Of Solids MCQs | 100 Questions Ans
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Class 11 Physics | Mechanical Properties of Solids MCQs with Answers – Part 3

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201. A vertical pillar supports a roof and is mainly under compression. If the load on the pillar is \(W\) and its cross-sectional area is \(A\), the average compressive stress is
ⓐ. \(\frac{W}{A}\)
ⓑ. \(\frac{A}{W}\)
ⓒ. \(WA\)
ⓓ. \(\frac{W}{A^2}\)
202. A square concrete pillar of side \(0.20\,\text{m}\) supports a load of \(8.0\times10^4\,\text{N}\). The average compressive stress in the pillar is
ⓐ. \(4.0\times10^5\,\text{Pa}\)
ⓑ. \(1.6\times10^4\,\text{Pa}\)
ⓒ. \(2.0\times10^7\,\text{Pa}\)
ⓓ. \(2.0\times10^6\,\text{Pa}\)
203. A long thin pillar and a short thick pillar are made of the same material and have the same cross-sectional area at the base. Under large compressive loads, the long thin pillar is more likely to fail by sideways bending. This qualitative failure is called
ⓐ. hydraulic compression
ⓑ. elastic hysteresis
ⓒ. lateral strain
ⓓ. buckling
204. The same compressive load is supported by two pillars of the same material. Pillar \(P\) has larger cross-sectional area than pillar \(Q\), while their lengths are similar. The safer statement is that pillar \(P\) has
ⓐ. smaller average compressive stress
ⓑ. larger average compressive stress
ⓒ. no compressive stress
ⓓ. the same stress regardless of area
205. Match the structural situation with the most relevant mechanical idea.
SituationMechanical idea
P. A roof load presses vertically on a pillar1. Compressive stress
Q. A slender column bends sideways under compression2. Buckling tendency
R. A cable lengthens under a hanging load3. Tensile strain
The correct matching is
ⓐ. \(P-2\), \(Q-3\), \(R-1\)
ⓑ. \(P-3\), \(Q-1\), \(R-2\)
ⓒ. \(P-1\), \(Q-2\), \(R-3\)
ⓓ. \(P-1\), \(Q-3\), \(R-2\)
206. A simply supported horizontal beam carries a load at its middle and bends downward. In the usual description of this bending, the upper layers of the beam are mainly
ⓐ. stretched, while the lower layers are compressed
ⓑ. free from all stress
ⓒ. changed only in volume without shape change
ⓓ. compressed, while the lower layers are stretched
207. In a bent beam, the neutral layer is the layer that
ⓐ. has maximum tensile strain
ⓑ. has maximum compressive strain
ⓒ. does not stretch or compress
ⓓ. has only hydraulic pressure
208. An \(I\)-shaped steel girder is often used in bridges and buildings because much of its material is placed far from the neutral layer. The main benefit is that it
ⓐ. removes all normal stress from the beam
ⓑ. makes Young’s modulus become zero
ⓒ. resists bending while saving material
ⓓ. turns bending into hydraulic compression
209. Consider the following statements about bending of beams. I. Bending involves both tensile and compressive effects. II. A neutral layer has almost no change in length during bending. III. In a downward-bent beam, upper and lower layers always have identical types of strain. IV. Beam shape affects resistance to bending. The suitable set is
ⓐ. I, II, and IV only
ⓑ. II and III only
ⓒ. I and III only
ⓓ. I, II, III, and IV
210. A metal rod is fixed rigidly between two supports. Its temperature is increased, but the supports prevent it from expanding. The rod develops stress mainly because
ⓐ. the rod’s mass becomes zero
ⓑ. strain becomes a pressure unit
ⓒ. the rod expands freely without opposition
ⓓ. supports prevent thermal expansion
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