DC Pandey Physics for JEE Main and Advanced: Physics is one of the more difficult subjects for students to study, but it is an essential paper for JEE Main and Advanced. DC Pandey Physics for JEE Main and Advanced assists students as they progress from lower to higher levels. The candidates get an introduction to more advanced concepts that are further part of a JEE Main and Advanced syllabus. It gives a preface to new ideas that are generally difficult.
To succeed in an entrance exam like JEE Main and Advanced, one must be well-versed in the subject, persistently motivated, and willing to complete all short-term objectives. Read the complete article to learn more on JEE Advanced Physics General, JEE Advanced Physics Modern Physics, Physical Chemistry for JEE Advanced and more.
JEE Main and JEE Advanced Exam Overview
Before we answer your question, is DC Pandey good for JEE Main and Advanced, we will look at the exam details for both exams.
JEE Main Exam 2022
JEE Advanced Exam 2022
Aspirants for JEE Main can take the exam three times in three years.
JEE Advanced candidates can only take the exam twice in two years.
The syllabus for JEE Main is the same as the CBSE syllabus for classes 11 and 12.
JEE Advanced Syllabus includes some additional topics that IIT aspirants must cover.
JEE Main requires less in-depth knowledge than JEE Advanced.
Candidates for JEE Advanced must have a thorough understanding of the concepts and their applications.
This year’s JEE Main will take place in June and July.
This year’s JEE Advanced will be held in August.
JEE Main is for candidates who want to study B.E or B.Tech at the participating states’ National Institutes of Technology (NITs), Indian Institutes of Information Technology (IIITs), and other Centrally Funded Technical Institutes (CFTIs), and engineering colleges.
JEE Advanced is intended for students interested in pursuing admission to various Indian Institutes of Technology (IITs), Indian Institutes of Science (IISC), and Indian School of Mines (ISM), Dhanbad.
The JEE Main is the qualifying exam for the JEE Advanced, which leads to admission to the IITs, IISC, or the Indian School of Mines (ISM).
JEE Advanced grants admission to various IITs, IISC, and ISM Dhanbad.
DC Pandey Physics for JEE Main and Advanced is a very suitable book to prepare for the exam. DC Pandey Physics for JEE Main and Advanced is one of the most popular books among JEE Main and Advanced aspirants. D.C. Pandey Physics, in addition to H.C. Verma Vol. I and II covers the physics syllabus for JEE Main and Advanced comprehensively and concisely.
The book is popular due to the large number of objective-type questions that correspond to the exam’s JEE Main and Advanced Physics sections. While D.C. Pandey Physics for JEE Main and Advanced is a good book for practical numerical problems, many teachers believe that candidates should use the NCERT Physics textbooks for 11th and 12th for theoretical concepts.
Every chapter in DC Pandey Physics for JEE Main and Advanced contains three levels of problems. Level 1 Consists of straightforward concept-based questions. Level 2 is a little tricky, similar to JEE Main/NEET level and level 3 problems are for brainstorming.
After gaining a firm grasp of the concepts, students should progress to D.C. Pandey Physics for JEE Main and Advanced.
DC Pandey Physics for JEE Main and Advanced Key Features
The key features of D.C. Pandey Physics for JEE Main and Advanced are as follows:
The language of D.C. Pandey Physics for JEE Main and Advanced is simple and easy to understand
Detailed examination of concepts/topics
Candidates get a wide range of practice questions in D.C. Pandey Physics for JEE Main and Advanced.
For numerical problems, step-by-step solutions are provided.
Level 3 questions are well-designed and thoroughly researched.
JEE Main Physics Syllabus 2022
Below is the list of important chapters of Physics. Candidates should cover the entire JEE Main syllabus 2022 of Physics to score good marks. Check out the JEE Mains syllabus of Physics.
JEE Main Physics Syllabus 2022 Section A (Theory)
Candidates can go through the JEE Main Physics syllabus for Section A below.
Optics
Electromagnetic Waves
Atoms and Nuclei
Electrostatics
Dual Nature of Matter and Radiation
Physics and Measurement
Rotational motion
Thermodynamics
Kinematics
Work, Energy, and Power
Solid and Liquid Properties
Gravitation
The Laws of Motion
Waves and Oscillations
Electronic Devices
The Gas Kinetic Theory
Current Electricity
Communication System
Alternating Currents and Electromagnetic Induction
JEE Main Physics Syllabus 2022 Section B (Experimental Skills)
The candidates can go through the JEE Main Physics syllabus for Section b below.
Vernier callipers use to measure a vessel’s internal and external diameters as well as depth.
Screw gauges use to determine the thickness and diameter of thin sheets and wires.
Simple energy dissipation by plotting a graph between the square of the amplitude and time.
Metre Scale – the mass of an object as determined by the principle of moments.
Young’s modulus of elasticity of a metallic wire’s material.
Capillary rise and the effect of detergents on water surface tension
The use of the coefficient of the terminal velocity of a given spherical body to calculate the viscosity of a given viscous liquid.
Plotting a cooling curve for the relationship between a hot body’s temperature and time
Sound speed in the air at room temperature measured with a resonance tube
Specific heat capacity of a given I solid and (ii) liquid using the mixtures method.
The use of a metre bridge to determine the resistivity of a given wire’s material.
The use of Ohm’s law to calculate the resistance of a given wire.
Potentiometer – I Emf comparison of two primary cells
(ii) Determination of a cell’s internal resistance.
The use of the half deflection method to calculate the resistance and figure of merit of a galvanometer.
Using the parallax method, calculate the focal length of I a convex mirror, (ii) a concave mirror, and (iii) a convex lens.
A triangular prism’s angle of deviation vs angle of incidence plot.
Using a travelling microscope, determine the refractive index of a glass slab.
A p-n junction diode’s characteristic curves in forward and reverse bias
A Zener diode’s characteristic curves and determining reverse break down voltage
A transistor’s characteristic curves and the determination of current gain and voltage gain
Diode identification Transistor, LED IC. Resistor. A capacitor from a random assortment of such items.
Using a multimeter, (i) Identify the base of a transistor (ii) Differentiate between NPN and PNP type transistors and (iii) Observe the unidirectional current in the case of a diode and an LED. (iv) Determine the correctness or otherwise of a specific electronic component (diode, transistor or IC).
Candidates can explore the JEE Advanced Physics General for JEE Advanced below.
Dimensional analysis, units and dimensions
Significant figures, low count
Measurement and error analysis methods for physical quantities related to the following experiments:
Experiments with Vernier callipers and a screw gauge (micrometre)
g determination with a simple pendulum
Searle’s method for calculating Young’s modulus
Using a calorimeter, determine the specific heat of a liquid.
Using the UV method, calculate the focal length of a concave mirror and a convex lens.
Sound speed using a resonance column
Ohm’s law is verified using a voltmeter and an ammeter.
The specific resistance of a wire’s material using a metre bridge and a post office box
Mechanics
Candidates can explore the JEE Advanced Mechanics syllabus below.
Projectiles, kinematics in one and two dimensions (only Cartesian coordinates), Relative velocity, uniform circular motion
Newtonian mechanics, Frames of reference inertial and uniformly accelerated, Friction, both static and dynamic, Potential and kinetic energy Work and authority, Linear momentum and mechanical energy conservation
The Particle systems, the centre of mass and its motion, and the impulse Collisions in elastic and inelastic.
Gravitational potential and field, gravitational law, Gravitational acceleration, Planetary and satellite motion in circular orbits, and the velocity of escape.
The Rigid body, the Theorems of parallel and perpendicular axes, the moment of inertia of uniform bodies with simple geometrical shapes Angular momentum Torque
Angular momentum conservation, Rigid body dynamics with a fixed axis of rotation, Rolling of rings, cylinders, and spheres without slipping, Equilibrium of rigid bodies Collision of rigid bodies and point masses Simple harmonic motions, both linear and angular.
Young’s modulus, Hooke’s law
Pascal’s law, fluid pressure, Surface energy and surface tension, capillary rise, viscosity (excluding Poiseuille’s equation), Stoke’s law, Bernoulli’s theorem and its applications, terminal velocity, Streamline flow, equation of continuity.
Wave motion (only plane waves), longitudinal and transverse waves, wave superposition, progressive and stationary waves, string and air column vibration Resonance, Beats, Gas Sound Speed, Doppler Effect (in sound)
Thermal Physics
Candidates can explore the JEE Advanced Thermal Physics syllabus below.
The thermal expansion of the Solids, liquids, & gases, Latent heat, calorimetry, One-dimensional heat conduction, convection and radiation are fundamental concepts.
Cooling law of Newton, Ideal Gas Laws, Cv and Cp for monoatomic and diatomic gases respectively, Isothermal and adiabatic processes, gas bulk modulus Heat and work equivalence
The first law of thermodynamics and its applications (to ideal gases only), Absorbative and emissive properties of blackbody radiation Kirchhoff’s law, Wien’s displacement law, and Stefan’s law are all examples of laws.
Electricity and Magnetism
Candidates can explore the JEE Advanced Electricity and Magnetism syllabus below.
The Coulomb’s law: the Potential and electric field, A system of point charges and electrical dipoles in a uniform electrostatic field’s electrical potential energy, Lines of the electric field, An electric field flux, Gauss’ law and its simple applications, such as determining the field due to an infinitely long straight wire, a uniformly charged infinite plane sheet, and a uniformly charged thin spherical shell.
Capacitance: Parallel plate capacitors, both with and without dielectrics, Capacitors connected in series and parallel, A capacitor stores energy.
Ohm’s law, electric current Resistances and cells are arranged in series and parallel. Kirchhoff’s laws and their straightforward applications Current heating effect Ampere’s law and Biot–law Savart’s Magnetic field near a straight wire carrying current, along the axis of a circular coil, and inside a long straight solenoid, In a uniform magnetic field, the force on a moving charge and a current-carrying wire is equal.
A current loop’s magnetic moment: A uniform magnetic field’s effect on a current loop, The moving coil galvanometer, voltmeter, and ammeter, as well as their conversions
Faraday’s law and Lenz’s law govern electromagnetic induction. Self and mutual inductance RC, LR, and LC circuits with alternating current and direct current sources
Optics
Candidates can explore the JEE Advanced Optics syllabus below.
Light’s rectilinear propagation, reflection and refraction at plane and spherical surfaces, total internal reflection, light’s deviation and dispersion by a prism, thin Lenses, Mirror-and-thin-lens combinations, and Magnification.
Huygen’s principle of wave nature of light, interference limited to Young’s double-slit experiment.
JEE Advanced Physics Modern Physics
Candidates can explore the JEE Advanced Physics Modern Physics syllabus below.
The Atomic Nucleus, Radiations, Radioactive Decay Law, Constant decay, half-life and mean life, The calculation of binding energy, Processes involved in fission and fusion, In these processes, energy is calculated.
The photoelectric effect, The theory of hydrogen-like atoms proposed by Niels Bohr, Characteristic and continuous X-rays, Moseley’s law, and matter-wave de Broglie wavelength
FAQs on DC Pandey Physics for JEE Main and Advanced
Read about the most frequently asked questions about DC Pandey Physics for JEE Main and Advanced below.
Q.1: Is DC Pandey good for JEE? Ans: Yes, DC Pandey is an excellent book for JEE because it covers and explains all concepts and topics in great detail. The book also contains a staggering number of questions directly relevant to JEE and will undoubtedly aid your preparation.
Q.2: Is DC Pandey Level 1 sufficient for JEE Main? Ans: Level 1 exercise in DC Pandey is primarily designed for JEE Main and consists of three questions: Reason & Assertion, Single Correct Option, and Subjective Question. If you want to get JEE Main, you must answer all three types of Level 1 questions.
Q.3: Is DC Pandey sufficient for JEE Advanced? Ans: DC Pandey’s book is one of the best recommended for Physics-numericals and has a moderate difficulty level. However, books by HC Verma and NCEERT have an advantage over DCPandey because the theory has a more elaborate structure and contains advanced complex problems that are more suitable for JEE advanced.
Q.4: Is DC Pandey a good practice book? Ans: It is the best book available for developing concepts and practising them. The books of DC Pandey are strongly advised and are best to start with to clear your conceptual doubts.
Q.5: Which is better for JEE Advanced, DC Pandey or Cengage? Ans: If your concepts are unclear, you should use Cengage because it contains many theories with good explanations. It will aid your comprehension of the idea. DC Pandey is the way if you need a book to clear your concepts and practice questions.
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