The Rajasthan Public Service Commission has published the RPSC School Lecturer Physics Syllabus 2023. This exam will test the candidate’s general knowledge and reasoning ability. The RPSC School Lecturer Physics Syllabus is available for download on the Commission’s website. The RPSC School Lecturer Physics Syllabus 2023 contains the detailed structure of the examination and the topics it will cover. The syllabus is divided into four Parts.
RPSC School Lecturer Physics Syllabus 2023
The Rajasthan Public Service Commission (RPSC) will be conducting the School Lecturer Physics examination in 2023. The examination is conducted for the selection of eligible candidates for the post of School Lecturer in various government schools in Rajasthan. The syllabus for the RPSC School Lecturer Physics examination is given below.
|Part – I Senior Secondary Level||Physical World and Measurement – dimensional formula and dimensional equations, Fundamental and derived units, systems of units, accuracy, and error in measurement.|
Description of Motion – uniformly accelerated motion, Motion in one dimension, Motion in two dimensions with uniform velocity/acceleration
Vectors – unit vector, addition and multiplication, Scalar and vector quantities.
Laws of Motion – impulse, momentum and conservation of linear momentum, First, second and third law of motion,
Friction – laws of friction, Types of friction.
Work, Energy and Power – conservation of energy, K.E., P.E., Work done by a constant/variable force, conservative and non-conservative forces, work- energy theorem, power and motion in vertical plane.
Rotational Motion – laws of conservation of angular momentum, Centre of mass, its motion, circular motion, moment of inertia, rotational motion, torque, angular momentum, centripetal force, theorems of M.I. and rolling motion.
Oscillatory Motion – simple pendulum and oscillation of a loaded spring, Periodic motion, K.E. and P.E. , S.H.M. its equation.
Waves – Type of waves, reflection of waves, beats, wave equation, speed of a progressive wave, superposition principle.
Gravitation- variation of g, gravitational potential energy and potential, Universal law of gravitation, planetary motion, , orbital and escape velocity.
Elasticity – Applications of elastic behaviour of matter, Young’s modulus, Hook’s law, bulk modulus and shear modulus of rigidity.
Surface Tension – Pascal’s law, molecular theory of surface tension, Fluid pressure.
Liquids in Motion – Terminal velocity, Stoke’s law, Type of flow of liquid, coefficient of viscosity, critical velocity, Bernoulli’s theorem – its applications, Reynold’s number.
Kinetic Theory of Gases – ideal gas equation, assumptions of kinetic theory of gases, Laws for gases, law of equipartition of energy, r.m.s speed of gas molecules, pressure exerted by a gas.
Radiation – Modes of transmission of heat, Stefen’s law, Newton’s law of cooling, thermal conductivity, Perfect blackbody, Wein’s displacement law.
Heat and Thermodynamics – thermal expansion of solid, liquid and gases, Concept of heat and temperature, temperature scales, latent heat, calorimetry, specific heat, change of state, thermodynamic process, second law of thermodynamics, zeroth & first law of thermodynamics, heat engine.
Ray Optics and Optical Instruments – lenses, image formation by lenses, thin lens formula, power of lens, dispersion by prism, Laws of reflection, defects of vision, microscopes, laws of refraction, reflection by plane and curved mirrors, total internal refraction – applications, lens maker formula, scattering of light.
Wave Optics – polarisation of light, law of Malus, Interference of light, Young’s double slit experiment, single slit diffraction, diffraction of light, polarization by reflection, resolving power of optical instruments.
Electrostatics – Gauss theorem – its applications, electric field and potential, Coulomb’s law, superposition principle, Dipole, torque experience by a dipole in uniform electric field, electric lines of force, equipotential surfaces, potential energy of a system of charges.
Capacitance – effect of dielectric on capacitance, parallel plate capacitors, Capacity of an isolated spherical conductor, energy of a capacitor, series and parallel combinations of capacitors.
Current Electricity – series and parallel combination of resistors, colour code of resistors, Drift velocity and mobility, Ohm’s Law, temperature dependence of resistance, resistivity, Kirchoff’s laws.
Magnetism and Current Magnetic Effect – classification of magnetic materials, lines of force, bar magnet, magnetic induction, magnetic intensity, Curie law, hysterisis, B-H curve, permeability, susceptibility & intensity of magnetisation – their relations.
12. Photoelectric Effect and Matter Waves – deBroglie’s hypothesis, Einstein’s photoelectric equation, Davison and Germer’s experiment, matter waves.
Nuclear Physics and Radioactivity – mass defect, binding energy, Nucleus, size, nuclear reactor, radioactivity, nuclear fission and fusion.
|Part – II Graduation Level||Mechanics: Inertial frames, Galilean transformation, postulates of special theory of relativity, non-inertial frames, fictitious forces, Coriolis force and its applications, rotating coordinate systems, Lorentz transformations, relativistic addition of velocities, timedilation, length contraction, mass energy relation, variation of mass with velocity.|
System of particles, analysis of collision in centre of mass frame, concept of reduced mass, equation of motion of a rotating body, single stage and multistage rocket, inertial coefficients.
relation between elastic constants, Elasticity, relation between elastic constants. torsion of a cylinder, Theory of bending of beams and cantilever.
Waves & Oscillations: driven harmonic oscillator, resonance, Damped harmonic oscillators, power dissipation, quality factor, motion of two coupled oscillators, transient and steady state, power absorption. Energy density and energy transmission in waves, speed of longitudinal waves in a fluid, Waves in media.
The human ear and its reactions to noise and music: intensity and loudness, bel and decibel, limits of human audibility, the musical scale, the acoustics of halls, temperament and musical instruments.
Electromagnetism: electric displacement, Concept of multi poles, polarization vector.
Electric Field in Matter: electrostatic field – conductors in electric field, atomic and molecular dipoles, electrostatic energy of charge distribution in dielectric, dielectrics, polarisability, Lorentz local field and Clausius Mossotti equation, uniqueness theorem, boundary conditions for potential and field at dielectric surface.
Maxwell’s equations (integral and differential form). E as deflecting field, CRO, E as an accelerating field.
Thermodynamics and Statistical Physics: liquid helium, Maxwell velocity distribution, maxwell relations and their applications, production of low temperatures, regenerative cooling, transport phenomenon: thermal conductivity, coefficients of viscosity, diffusion and their interrelation. temperature inversion, Clausius- Clapeyron equation, vapor pressure curve. Phase space, thermodynamic probability, relation between entropy and thermodynamic probability. Bose Einstein statistics and its distribution function, Micro and Macro states.
Electronics and Circuit Analysis: Thevenin, Norton, Four terminal networks, Input, reciprocity, maximum power transfer theorems, various circuits theorems: superposition.
Rectifiers- filters- series inductor, shunt capacitor, half wave, full wave and bridge rectifier, L-section and π-section filters, calculation of ripple factor, efficiency and regulation.
Transistor biasing – voltage and current feedback circuits, stability factors, amplifier with feedback: positive and negative feedback.
Optics: circular disc,straight edge, Michelson interferometer, Interference of a light in thin films, FabryPerot interferometer. Fresnel diffraction: half periods zones, circular aperture, plane diffraction grating, Fraunhoffer diffraction: double slit, Newton’s ring.
Lasers and Holography: Einstein’s A and B coefficients, condition for amplification, Spontaneous and stimulated emission, methods of optical pumping, population inversion, , holography, working of a laser source, energy level schemes of He-Ne and Ruby lasers.
Quantum Mechanics and Spectroscopy: application of uncertainty principle, Failure of classical physics, uncertainty principle and its consequences.
Schrodinger equation – operators in quantum mechanics, time dependent and time independent form, expectation values of dynamical variables, probability current density, eigen function and eigen value, postulates of quantum mechanics, Ehrenfest theorem, commutation relations, degeneracy.
Schrodinger equation for a spherically symmetric potential, particle in one dimensional box, energy levels of H-atom, reflection and transmission coefficient, potential step and rectangular potential barrier, , simple harmonic oscillator (one dimensional).
Elementary Spectroscopy: Stern and Gerlach experiment, Quantum features of one electron atoms, Frank-Hertz experiment, spin and magnetic moment, spin-orbit coupling and fine structure. atoms in a magnetic field, rigid rotator, diatomic molecules, rotational spectra, Zeeman effect, molecular spectroscopy.
Nuclear Physics: parity and orbital angular momentum, Quadrupole moment and nuclear ellipticity, nuclear spin, nuclear forces, proton-neutron hypothesis, the nuclear potential.
Accelerators- region of multiplicative operation, Linear Accelerators, Cyclotron, Synchrocyclotron, Betatron, Electron Synchrotron, Proton Synchrotron. Particle and Radiation Detectors: ionisation chamber, Geiger-Muller counter.
Solid State Physics: Miller indices, crystal structure, Crystal binding and crystal structure: Bravis lattice, Laue equation of X-ray diffraction, X-ray diffraction and Bragg’s law.
Thermal Properties of the Solids: Debye model, thermal conductivity of the lattice, Phonons, various theories of lattice specific heat of solids: Einstein model, electronic contribution to the specific heat of metals, band theory of solids: wave function in a periodic lattice and Bloch theorem, Kronig-Penny model, effective mass, momentum, crystal momentum.
Electrical Conductivity: Sommerfield theory of electrical conductivity, Mathiessen’s rule, thermal conductivity and Wildemann-Franz’s Law, The Hall effect.
Super Conductivity: experimental features of superconductivity, the isotope effect, special features of superconducting materials, flux quantisation, BCS theory of superconductivity: cooper pairs.
|Part – III Post Graduation Level||Mathematical Physics and Classical Mechanics: Langrangian and Hamiltonian formalism, Tensors, matrices, Fourier and Laplace transforms. Bessel and Legendre functions. String formula, basic group theory. D’ Alembert’s Principle.|
Electricity and Magnetism: Concepts of wave guides, Radiation from moving charge and radiation from dipole, retarded potentials, bremsstrahlung and synchroton radiation, Lienard-Wiechart potential.
Thermodynamics and Statistical Physics: ensemble, BoseEinstein condensation, Gibb’s paradox, Canonical and grand canonical Liouvilles’ theorem, Landau theory of phase transitions. Langevin theory, Fokker-Plank equation.
Quantum Physics: Elementary theory of scattering in a central potential, partial wave and phase-shift analysis, Identical particle and spin statistics, approximation methods for stationary states.
Electronics: Clipping and clamping circuits, operational amplifiers and its applications, half and full adder circuits, K-maps, flip-flops, counters and registers.
Atomic, Molecular and Solid State Physics: Quantum states of an electron in an atom, hydrogen atom spectra, Pauli’s Principle, Paschen-Back effect, Stark effect, LS and JJ coupling, hyperfine structure, Frank-Condon principle. Semiconductors statistics of pure and impure semi conductors, electrical conductivity and its temperature dependence, recombination mechanisms, photo conductivity, NMR, ESR and Mossbauer effects.
Nuclear and Particle Physics: Nuclear shell model, collective model, Interaction of charged particles and electromagnetic waves with matter, meson theory of nuclear force, nuclear scattering: p-p and n-p, Breit- Wigner scattering formula, Fermi theory of beta decay, Gamovtheory of alpha decay, elementary particles.
|Part – IV (Educational Psychology, Pedagogy, Teaching Learning Material, Use ofComputers and Information Technology in Teaching Learning)||Pedagogy and Instructional Materials (Instructional Strategies for AdolescentLearner)|
Preparation and application of teaching-learning materials during instruction.Communication abilities and their application.Models of instruction include advance organizers, concept attainment, information processing, and inquiry training.Cooperative Learning.
Psychology in Education
Educational psychology’s concept, scope, and functionsThe physical, cognitive, social, emotional, and moral development features of adolescent learners, as well as their implications for teaching-learningLearning concepts based on behavior, cognition, and constructivism and their implications for senior secondary students.The concept of mental health and adjustment, as well as the adjustment methodEmotional intelligence and its implication in teaching learning.
Computers and Information Technology in Education and Learning
Concept of ICT, hardware and software.System approach.Computer assisted learning, computer aided instruction
Check the latest updates below-
RPSC School Lecturer Physics Syllabus 2023 PDF Download
The RPSC School Lecturer Physics Syllabus for the year 2023 is now available for candidates who are appearing for the examination. The syllabus has been released by the Rajasthan Public Service Commission on its official website. Candidates can download the RPSC School Lecturer Physics Syllabus PDF from the link given below.
Download RPSC School Lecturer Physics Syllabus PDF Here!
RPSC School Lecturer Physics Syllabus 2023 in Hindi
The Rajasthan Public Service Commission (RPSC) has released the School Lecturer Physics Syllabus in Hindi on its official website. Candidates who are appearing for the RPSC School Lecturer Physics Exam can check and download the RPSC School Lecturer Physics Syllabus 2023 in Hindi from the official website.
How to Download RPSC School Lecturer Physics Syllabus 2023
To RPSC School Lecturer Physics Syllabus Download, candidates need to follow the below-mentioned steps:
Step 1: Visit the official website of RPSC.
Step 2: On the homepage, go to the ‘Syllabus’ section under the ‘Examination’ tab
Step 3: A new page will open where you need to select your examination from the drop-down list
Step 4: After selecting ‘School Lecturer (Physics) Exam 2023’, click on the ‘Download’ button next to it
Step 5: The syllabus will be downloaded in PDF format on your computer/laptop.
RPSC School Lecturer Physics Syllabus 2023: Exam Pattern
Here is the RPSC School Lecturer Physics Exam Pattern:
- The examination will be scored a maximum of 300 marks.
- The time limit for the question paper is 3 hours.
- The examination will have 150 multiple-choice questions.
- Negative marks will be used to evaluate responses. For each wrong response, a third of a mark is deducted.
RPSC School Lecturer Physics Syllabus 2023: FAQs
The RPSC School Lecturer Physics Syllabus covers the topics of Mechanics, Electricity & Magnetism, Waves & Optics, and Thermal Physics.
The mechanics topics covered in the syllabus include Newton’s laws of motion, gravitation, energy, momentum, and rotation. Candidates must have a strong understanding of these concepts in order to do well on the exam.
The RPSC School Lecturer Physics Exam will consist of 150 multiple-choice questions.
Yes, negative markings will be used. 1/3 mark is deducted for each incorrect answer.
You can prepare your exam by taking up mock tests and solve previous year’s questions paper.