60-Day Study Plan for JKPSC 10+2 Lecturer Physics by home academy
| Day(s) | Topic | Focus Areas | Task Type |
|---|---|---|---|
| 1–3 | Mathematical Physics – Part I | Vectors, tensors, matrix algebra, eigenvalues, PDEs | Theory + Problems |
| 4–5 | Mathematical Physics – Part II | Fourier series, Laplace & Fourier transforms, special functions | Derivations + Practice |
| 6–7 | Complex Analysis & Revision | Contour integration, residue theorem, mock test | Short notes + MCQs |
| 8–10 | Classical Mechanics – Part I | Newton’s laws, constraints, Lagrangian mechanics | Derivation-heavy + Conceptual Qs |
| 11–13 | Classical Mechanics – Part II | Hamiltonian mechanics, central forces, oscillations | Numericals + PYQs |
| 14–15 | Electrodynamics – Basics | Maxwell’s equations, boundary conditions | Theory + Formulae Recap |
| 16–18 | Electromagnetic Waves & Radiation | Wave propagation, skin depth, radiation from charges | Numerical practice |
| 19–21 | Electronics – Analog | BJT, FET, OPAMP, amplifiers, oscillators | Circuits + Problem-solving |
| 22–23 | Electronics – Digital | Logic gates, Boolean algebra, flip-flops, counters | Truth tables + Circuit MCQs |
| 24–26 | Quantum Mechanics – Part I | Schrödinger equation, potential well, harmonic oscillator | Derivations + Short questions |
| 27–29 | Quantum Mechanics – Part II | Angular momentum, spin, perturbation theory, hydrogen atom | Practice + Revision |
| 30–32 | Solid State Physics – Part I | Crystals, X-ray diffraction, thermal properties | Definitions + Conceptual Qs |
| 33–35 | Solid State Physics – Part II | Conductivity, Hall effect, magnetism, superconductivity | PYQs + Problem-solving |
| 36–38 | Nuclear Physics – Part I | Binding energy, nuclear forces, models | Theory + Formulas |
| 39–40 | Nuclear Physics – Part II | Detectors, accelerators, radioactivity | Diagram-based Questions |
| 41–42 | Particle Physics | Quarks, leptons, quantum numbers, conservation laws | Conceptual clarity + PYQs |
| 43–44 | Spectroscopy – Atomic & Molecular | LS/JJ coupling, Zeeman effect, vibrational and rotational spectra | Short notes + Formula practice |
| 45–46 | Laser Physics | Population inversion, laser types, applications | MCQs + Previous-year problems |
| 47–49 | Statistical Mechanics – Part I | Ensembles, partition function, Maxwell-Boltzmann stats | Numericals + Theory |
| 50–52 | Statistical Mechanics – Part II | Fermi-Dirac, Bose-Einstein, blackbody radiation, Debye model | Derivations + Short notes |
| 53–55 | Thermodynamics | Laws, potentials, Maxwell relations, thermodynamic identities | Problem-solving |
| 56 | Full-Length Mock Test – 1 | All Topics (MCQ format) | Self-evaluation |
| 57 | Error Review & Topic Reinforcement | Revise weak areas based on mock test | Targeted review |
| 58 | Full-Length Mock Test – 2 | New paper, simulate real-time conditions | OMR practice |
| 59 | Revision Day | All formulas, concepts, mistakes from tests | Quick notes + Mind maps |
| 60 | Final Review & Strategy Setup | Final test-taking tips, confidence-boosting, relaxation techniques | Mindset + Sleep early! |
✅ Preparation Strategy Tips
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📚 Use NCERT + Standard books (e.g., H.C. Verma, Griffiths, Eisberg, Resnick-Halliday, etc.)
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📂 Organize notes topic-wise and highlight formulas, concepts, tricks
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📝 Practice PYQs weekly from JKPSC and other state/UGC exams Or home academy website
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📈 Mock tests every weekend from Day 15 onward for performance tracking