IIT JAM is also known as the Joint Admission Test for Masters is a common admission test conducted on the National level every year for candidates who wish to take admission into two years of Post Graduate Degree or Masters of Science and Integrated Ph.D. at IISc (Indian Institute of Science), NITs (National Institutes of Technology) and IITs (Indian Institutes of Technology).

JAM is organized by NIT and IIT institutes every year in an alternating process. The Joint Admission Test for Masters (JAM) initially started in the year 2001. And the 2021 entrance examination was organized by IISC (Indian Institute of Science).

The Joint Admission Test for Masters (JAM) is specially designed for those students from the science department who have great zeal in learning and growing in their respective fields.

The candidates who qualify for the entrance examination are eligible to complete their Master’s Degree or Post Graduate Degree from institutes like NITs, IITs, IISC Bangalore and CFTIs. There are several other students who opt for the Ph.D. program after the completion of the Master’s Degree.

Through the JAM entrance examination, students takes admission in the integrated Ph.D. degree of 5 years, and also, there are various other scopes for the students to apply for the post of a researcher or a scientist at DRDO, ONGC, BARC, IOCL, ISRO, ONGC, NTPC, and others.

This article will help you with IIT JAM Physics Syllabus and all other tips that will lead you to success.

**IIT JAM Physics Important Topics**

The questions that were asked in IIT JAM 2021 examination for the subject Physics were of 10+2 standard. The topics that the candidates need to concentrate on to perform the best in the IIT JAM Physics 2022 are given below:

- Mathematical Methods.
- Mechanics and General Properties of Matter.
- Oscillations, Waves, and Optics.
- Electricity and Magnetism.
- Kinetic Theory, Thermodynamics.
- Modern Physics.
- Solid State Physics, Devices, and Electronics.

**IIT JAM Physics Syllabus 2022 – A detailed overview**

**1. Mathematical Methods**

In this section, the topics that the candidates need to cover are Calculus of single and multiple variables, Jacobean, partial derivatives along with imperfect and perfect differentials, Fourier series, and Taylor expansion.

The candidate also needs to cover Vector Calculus, Vector algebra, multiple integrals, as well as Divergence theorem, with Green’s theorem and Stokes’s theorem.

With these topics, the other topics that need to be covered are First order equations and linear second-order differential equations with constant coefficients.

The candidate also needs to cover the topics of Matrices and determinants, Algebra of complex numbers.

**2. Mechanics and General Properties of Matter**

In this section, the topics that the candidates need to cover begin with Newton’s laws of motion and applications, polar and cylindrical coordinate systems, Velocity and acceleration in Cartesian, centrifugal and Coriolis forces, uniformly rotating frame, Gravitational Law and field, Kepler’s laws, Conservative and non-conservative forces and Motion under a central force.

Also, the other topics that are required to be covered are the Center of mass, the System of particles, the equation of motion of the CM, the conservation of energy, the conservation of linear and angular momentum, and the variable mass systems.

The other topics under this section that the candidate must prepare are Elastic and inelastic collisions, rigid body motion, rotation and translation, fixed axis rotations, parallel and perpendicular axes theorem, and moments of Inertia and products of Inertia.

With the above topics, a few other topics that need to be covered are Euler’s equation, Bernoulli’s theorem, equation of continuity, Principal moments and axes, and Kinematics of moving fluids also come under this section.

**3. Oscillations, Waves, and Optics**

In this section, the topics that the candidates must cover are oscillator and its general solution, Damped and forced oscillators, resonance, Differential equation for simple harmonic, and Superposition of two or more simple harmonic oscillators.

Also, the other topics that come under this section are Lissajous figures, Wave equation, Energy density, and energy transmission in waves, and traveling and standing waves in one dimension.

A few more topics that come under this section are Sound waves in media, Group velocity, and phase velocity, Doppler Effect, General theory of image formation, and Fermat’s Principle.

A few more topics that come under this section are Interference of light, optical path retardation, Fraunhofer diffraction, thick lens, thin lens, and lens combinations. Polarization: linear, circular, and elliptic polarization.

Other topics are the diffraction gratings, double refraction and optical rotation, Rayleigh criterion, and resolving power.

**4. Electricity and Magnetism**

This unit covers Coulomb’s law and Gauss’s law along with Electrostatic boundary conditions, Electric field, and potential.

The other topics that fall under this unit are Solution of Laplace’s equation for simple cases, capacitors, Conductors, dielectrics, dielectric polarization, volume and surface charges, and electrostatic energy.

A few more to add in this section are Ampere’s law, Biot-Savart law, Faraday’s law of electromagnetic induction, and self and mutual inductance. The other topics that also need to be covered are Alternating currents, along with Simple DC and AC circuits with R, L, and C components, and Displacement current.

A few more to add are the topics of Maxwell’s equations and plane electromagnetic waves, reflection and refraction at a dielectric interface, Poynting’s theorem, transmission, and reflection coefficients (normal incidence only).

Also, the topics of Lorentz Force and motion of charged particles in electric and magnetic fields come under this unit.

**5. Kinetic Theory, Thermodynamics**

This section includes Elements of Kinetic theory of gases, Equipartition of energy, and Velocity distribution. Ideal gas with van-der-Waals gas and equation of state is an important topic. Specific heat of Mono-, di- and tri-atomic gases, and Mean free path are also vital.

This section also includes the Laws of thermodynamics, Thermodynamic potentials and their applications, Zeroth law and concept of thermal equilibrium, as well as First law and its consequences and Isothermal and adiabatic processes, and Reversible, irreversible and quasi-static processes.

Adding to it, the topics that come under this section are Second law and entropy, Carnot cycle, along with Maxwell’s thermodynamic relations and simple applications. Ideas of ensembles, Fermi- Dirac, Maxwell-Boltzmann, and Bose-Einstein distributions and Clausius-Clapeyron equation and Phase transitions are crucial for IIT aspirants too.

**6. Modern Physics**

The topics that need to be covered by the candidates are Postulates of special relativity, Inertial frames and Galilean invariance, Lorentz transformations, time dilation, and length contraction.

The other topics are mass-energy equivalence, Relativistic velocity addition theorem, photoelectric effect, Blackbody radiation, Bohr’s atomic model, Compton Effect, and X-rays.

The other topics that fall under this section are the superposition principle, Uncertainty principle, Wave-particle duality, calculation of expectation values, and Laws of radioactive decay.

The section on Modern Physics also includes topics on the Solution of the Schrödinger equation for the one-dimensional harmonic oscillator and the Schrödinger equation and its solution for one, two, and three-dimensional boxes.

The other topics are the Pauli Exclusion Principle, Reflection and transmission at a step potential, mass and binding energy, Structure of atomic nucleus, and Radioactivity and its applications.

**7. Solid State Physics, Devices and Electronics**

In this section the topics covered are In this section the topics that are included are Bravais lattices and basis, Crystal structure, Miller indices, X-ray diffraction, and Bragg’s law, variation of resistivity with temperature, Intrinsic and extrinsic semiconductors, Zener diode and its applications, p-n junction diode, and I-V characteristics.

A few others to add to the list are BJT characteristics in CB, CE, CC modes, Fermi level, Single-stage amplifier, and two-stage R-C coupled amplifiers.

This section also includes Simple Oscillators: Sinusoidal oscillators and Barkhausen conditions. OPAMP and applications: Inverting and non-inverting amplifier. Logic Gates AND, OR, NOT, NAND, NOR exclusive OR; Truth tables; the combination of gates; de Morgan’s theorem. And also Boolean algebra: Binary number systems; conversion from one system to another system; binary addition and subtraction.

**IIT JAM Physics exam preparation tips**

You are the best! It’s just that you need to plan your strategies in a smarter way so that you can easily pursue your goals. So, do not waste time getting worried, rather play smart, and success will be yours. The following tips will help you out while you prepare for your IIT JAM.

- The first and foremost point that you should keep in mind is to get some good books that cover the entire syllabus of the IIT JAM Physics Syllabus.
- The next thing you need to do is mark out the important sections and topics.
- While studying, concentrate on the theory part and try to think conceptually. Suppose, you find it difficult to understand on the first go, try repeating it over and over again. Also, you can go through the online lectures of the IIT JAM Physics Syllabus, and it will give a better view of understanding.
- Make a good hold over the basic concepts of physics as the entire IIT JAM Physics Syllabus is based on some set of mantras. If your basic knowledge in Physics is clear, then you can solve any question that is there in the IIT JAM Physics Syllabus.
- Your initial focus should be on simplifying the problems and not making them complicated.
- Physics is co-related to Mathematics, so your mathematical skills should be strong enough so that you can solve your questions easily.
- Another important tip to cover the IIT JAM Physics Syllabus is that you must at least solve 15-20 Physics questions every day. It will not only fasten your thinking abilities but also boost up your speed.
- You should also make short notes and learn them thoroughly. These notes will be your tool for quick revision. Also, this will give you the scope to go through the entire IIT JAM Physics Syllabus before your final examination.
- Last but not least, always seek help from the experts. It is always wise to seek help rather than wasting time after any question that you are not able to solve.

The books that will cover the entire IIT JAM Physics Syllabus are given below, but always take the help of an expert before buying the books. The list of books is:

**Kinetic Theory and Thermodynamics**

- Thermal Physics by Garg, Bansal & Ghosh
- Thermal Physics: Heat & Thermodynamics by HP Roy & AB Gupta
- Fundamentals of Statistical Mechanics & Thermal Physics by F Reif

**Mathematical Methods**

- Mathematical Methods in the Physical Sciences by Mary L Boas
- Advanced Engineering Mathematics by Erwin Kreyszig
- Vector Analysis: Schaum Series by Murray R Spiegel
- Mathematical Physics by HK Dass
- Mathematical Methods for Physics & Engineering by Riley, Hobso & Bence

**Mechanics & General Properties of Matter**

- Classical Mechanics by JC Upadhyaya
- An Introduction to Mechanics by Kleppner and Kolenkow
- Classical Mechanics & General Properties of Matter by AB Gupta
- Classical Mechanics by Herbert Goldstein

**Modern Physics**

- Introduction to Quantum Mechanics by David J Griffiths
- Nuclear Physics by DC Tayal
- Quantum Physics by HC Verma

**Oscillations, Wave and Optics**

- Waves and Oscillations by Brij Lal & N Subrahmanyam
- Waves and Oscillations by NK Bajaj
- Optics by Hecht, AR Ganesan

**Electricity and Magnetism**

- Foundations of Electricity & Magnetism by B Ghosh
- Introduction to Electrodynamics by David J Griffiths

**Solid State Physics, Devices and Electronics**

- Solid State Physics by Puri & Babbar
- Solid State Physics by SO Pillai
- Digital Fundamentals by Floyd

**Conclusion**

By now, you have got a clear idea of what IIT JAM is all about. Also, you have got a detailed overview of the entire IIT JAM Physics Syllabus and the tips, which if followed, will give you the best results. The suggested book list is given also comprises the entire IIT JAM Physics Syllabus. One final to repeat again, always seek for an experts advice.