Subject wise MCQ’s ➣ Sets, Relations & Functions 1 2 3 4 ➣ Real & Complex Numbers, Equations and Inequalities
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Chapter 10: Modern Physics – Quantum Mechanics & Atomic Structure (Set-4)
The anomalous Zeeman effect arises due to A Nuclear spin B Electron spin and spin–orbit coupling C Phonons D Thermal
Continue readingChapter 12: Solid State Physics, Electronics & Nuclear & Particle Physics (Set-4)
Stacking fault energy in crystals affects: A Dislocation mobility B Band gap C Nuclear radius D Electron mass Explanation Lower
Continue readingChapter 12: Solid State Physics, Electronics & Nuclear & Particle Physics (Set-3)
The coordination number of an FCC lattice is: A 6 B 8 C 12 D 4 Explanation Each atom in
Continue readingChapter 12: Solid State Physics, Electronics & Nuclear & Particle Physics (Set-2)
Miller indices are obtained by: A Taking intercepts directly B Taking reciprocals of intercepts and clearing fractions C Multiplying intercepts
Continue readingChapter 12: Solid State Physics, Electronics & Nuclear & Particle Physics (Set-1)
In a simple cubic crystal, the number of atoms per unit cell is A 2 B 4 C 1 D
Continue readingChapter 11: Statistical Physics & Relativity (Set-4)
For a photon gas, internal energy U is proportional to A T B T³ C T⁴ D 1/T Explanation Blackbody:
Continue readingChapter 11: Statistical Physics & Relativity (Set-3)
In microcanonical ensemble, all accessible microstates have A Different probabilities B Zero probability C Equal probabilities D Probabilities depending on
Continue readingChapter 11: Statistical Physics & Relativity (Set-2)
In Maxwell–Boltzmann statistics, particles are treated as A Indistinguishable B Fermions only C Bosons only D Distinguishable classical particles Explanation
Continue readingChapter 11: Statistical Physics & Relativity (Set-1)
Probability of an event that is certain to occur equals A 0 B 0.5 C 1 D Undefined Explanation Certain
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