JEE Advanced Physics Important Questions: JEE Advanced 2023 exam will take place on June 04, 2023. Candidates preparing for IIT JEE 2023 exam must know all the important questions to comprehend the type of questions they may face in the JEE Advanced 2023 exam. As 155,500 candidates appear for JEE Advanced every year to get a seat in the prestigious IITs, the difficulty level of Physics as a subject and the overall exam difficulty level is high. Therefore, it is important that candidates must solve JEE Advanced Physics questions and start preparing for the subject at the earliest.
This article provides insights into the important Physics questions that the IIT aspirants must prepare for their JEE Advanced exam 2023. It will help them since Physics preparation is crucial part of this engineering entrance exam. Also, we have given the topic-wise weightage along with JEE Advanced Physics syllabus 2023. Keep on scrolling to learn about Physics JEE Advanced important questions.
Latest Updates: – Online registration for JEE Advanced 2023 exam will start on April 30, 2023. The last date to submit the registration form is May 7, 2023. – JEE Advanced exam 2023 will be conducted on June 04, 2023.
JEE Advanced Physics Important Questions
Physics has its roots embedded in the Mathematics field. So, knowing all about the Physics important questions for JEE Advanced and how to solve them is a must for all IIT JEE aspirants. Before diving deep into the Physics JEE Advanced important questions, candidates can have all the information about JEE Advanced Physics syllabus 2023, which will benefit their overall preparation process.
Syllabus of JEE Advanced Physics 2023
The first step in Physics preparation is knowing the overall details of the Physics syllabus. For getting into Physics preparation, all the aspirants who are willing to become an IITian in the future and want to get through the exam can look into the below-mentioned table to know the JEE Advanced syllabus.
Sections
JEE Advanced Physics Topics
General Physics
Units and Dimensions; Dimensional Analysis; Least Count, Significant Figures; Methods of Measurement and Error Analysis for Physical Quantities Pertaining to the Following Experiments: Experiments Based on Using Vernier Callipers and Screw Gauge (Micrometer); Determination of G Using Simple Pendulum; Young’s Modulus by Searle’s Method; Specific Heat of a Liquid Using a Calorimeter; Measurement of the Focal Length of a Concave Mirror and a Convex Lens Using U-V Method; Speed of Sound Using Resonance Column; Verification of Ohm’s Law Using Voltmeter and Ammeter and Specific Resistance of the Material of a Wire Using Meter Bridge and Post Office Box.
Mechanics
Kinematics in One and Two Dimensions (Cartesian Coordinates Only); Projectiles; Uniform Circular Motion; Relative Velocity. Newton’s Laws of Motion; Inertial and Uniformly Accelerated Frames of Reference; Static and Dynamic Friction; Kinetic and Potential Energy; Work and Power; Conservation of Linear Momentum and Mechanical Energy; Systems of Particles; Centre of Mass and Its Motion; Impulse; Elastic and Inelastic Collisions; Law of Gravitation; Gravitational Potential and Field; Acceleration Due to Gravity; Motion of Planets and Satellites in Circular Orbits; Escape Velocity; Rigid Body & Moment of Inertia; Parallel and Perpendicular Axes Theorems; Moment of Inertia of Uniform Bodies with Simple Geometrical Shapes; Angular Momentum; Torque; Conservation of Angular Momentum; Dynamics of Rigid Bodies with Fixed Axis of Rotation; Rolling Without Slipping of Rings, Cylinders and Spheres; Equilibrium of Rigid Bodies; Collision of Point Masses with Rigid Bodies, Linear and Angular Simple Harmonic Motions; Hooke’s Law; Young’s Modulus: Pressure in a Fluid; Pascal’s Law; Buoyancy; Surface Energy and Surface Tension; Capillary Rise; Viscosity (Poiseuille’s Equation Excluded); Stoke’s Law; Terminal Velocity; Streamline Flow; Equation of Continuity; Bernoulli’s Theorem and Its Applications; Wave Motion (Plane Waves Only); Longitudinal and Transverse Waves; Superposition of Waves; Progressive and Stationary Waves; The Vibration of Strings and Air Columns; Resonance; Beats; Speed of Sound in Gases; Doppler Effect (In Sound)
Thermal Physics
Thermal Expansion of Solids; Liquids and Gases; Calorimetry & Latent Heat; Heat Conduction in One Dimension; Elementary Concepts of Convection and Radiation; Newton’s Law of Cooling; Ideal Gas Laws; Specific Heats (CV and Cp for Monoatomic and Diatomic Gases) Isothermal and Adiabatic Processes; Bulk Modulus of Gases; Equivalence of Heat and Work First Law of Thermodynamics and Its Applications (Only for Ideal Gases) Blackbody Radiation: Absorptive and Emissive Powers; Kirchhoff’s Lawwien’s Displacement Law; Stefan’s Law.
Ray Optics
Rectilinear Propagation of Light; Reflection and Refraction at Plane and Spherical Surfaces; Total Internal Reflection; Deviation and Dispersion of Light by a Prism; Thin Lenses; Combinations of Mirrors and Thin Lenses; Magnification; Wave Nature of Light: Huygen’s Principle; Interference Limited to Young’s Double-Slit Experiment.
Electricity and Magnetism
Coulomb’s Law; Electric Field and Potential; Electrical Potential Energy of a System of Point Charges and of Electrical Dipoles in a Uniform Electrostatic Field; Electric Field Lines; Flux of an Electric Field; Gauss’s Law and Its Application in Simple Cases such as to Find Field Due to Infinitely Long Straight Wire; Uniformly Charged Infinite Plane Sheet and Uniformly Charged Thin Spherical shell.capacitance; Parallel Plate Capacitor With and Without Dielectrics; Capacitors in Series and Parallel; Energy Stored in a Capacitor; Electric Current; Ohm’s Law; Series and Parallel Arrangements of Resistances and Cells; Kirchhoff’s Laws and Simple Applications; Heating Effect of current; Biot–Savart’s Law and Ampere’s Law; Magnetic Field Near a Current-Carrying Straight Wire; Along the Axis of a Circular Coil and Inside a Long Straight Solenoid; Force on a Moving Charge and on a Current-Carrying Wire in a Uniform Magnetic Field; The Magnetic Moment of a Current Loop; Effect of a Uniform Magnetic Field on a Current Loop; Moving Coil Galvanometer, Voltmeter, Ammeter, and Their Conversions; Electromagnetic Induction: Faraday’s Law, Lenz’s Law; Self and Mutual Inductance; RC, LR, and LC Circuits With D.C. And A.C. Sources.
Modern Physics
Atomic Nucleus; Α, β, and γ Radiations; Law of Radioactive Decay; Decay Constant; Half-Life and Mean Life; Binding Energy and Its Calculation; Fission and Fusion Processes; Energy Calculation in These Processes; Photoelectric Effect; Bohr’s Theory of Hydrogen-Like Atoms; Characteristic and Continuous X-rays, Moseley’s Law; De Broglie Wavelength of Matter Waves.
The topic-wise weightage will ease the JEE Advanced Physics preparation process for the aspirants. If all the IIT aspirants approach their Physics preparation methodologically, Physics will not appear hard to them. Check out all the details on the topic-wise weightage for JEE Advanced 2023 below:
Topic Names
Weightage Distribution
Thermodynamics
14-15%
Fluid Mechanics
11-12%
Modern Physics
9-10%
Electromagnetic Induction
21-22%
Ray Optics
11-12%
Centre of Mass, Momentum and Collision
6-7%
Alternating Current
6-7%
Wave Motion and String Waves
6-7%
Heat Transfer
6-7%
Alternating Current
6-7%
Capacitors
9-10%
Current Electricity
6-7%
Electrostatics
6-7%
Gravitation
4-5%
Kinematics
4-5%
Magnetism
11-12%
Measurement and Errors
4-5%
Modern Physics
4-5%
Rotational Dynamics
29-30%
Vectors
4-5%
Wave Optics
5-6%
Sound Waves
4-5%
JEE Advanced 2023 All India Mock Test Series (AITS)
Candidates can access the JEE Advanced mock exams created by Embibe’s subject-matter experts. All mock tests are based on the latest JEE Advanced 2023 syllabus and cover concepts in depth. Only three to four practice exams will significantly improve your performance. Use the steps below to register and start taking practice exams right away!
1st Step: Visit the official website of Embibe, i.e., embibe.com.
2nd Step: Use the Mobile Number/Email ID to log in to the platform.
3rd Step: Click on the menu bar titled “Getting into my dream undergraduate college”
4th Step: Select the Goal “Engineering” from the Dropdown and click on “Next”.
5th Step: Search and Select “JEE Advanced” on the search bar and click on “Next”.
6th Step: Select the preferred language and click on “Done”.
7th Step: Click “Test” from the Header Menu Section.
8th Step: Scroll down to the “Take Full Tests” section.
9th Step: Click on any mock test to begin the test.
Important Questions for JEE Advanced Physics: Know Important Topics
Knowing the important concepts for JEE Advanced Physics will simplify the preparation process since it will exemplify which particular areas need special attention. The subject-matter specialists are all set to deliver the critical topics from which candidates can expect questions in the JEE Advanced Physics paper.
There is no shortcut to excel in JEE Advanced exam 2023 without hard work and smart work. Besides knowing chapters and topics from which aspirants can expect questions, solving sample question papers and previous year’s question papers can also strengthen the preparation strategy.
JEE Advanced Previous Years Question Papers
Physics deals with the various phenomena which happen around us. JEE Advanced Physics syllabus is mainly about the widespread explanation of Class 11 and 12 concepts. Thus, solving the previous years’ question papers can offer various advantages, since the IIT JEE aspirants will know about the question types in the exam. In the table below, candidates will find all the last years’ questions of JEE Advanced exam.
JEE Advanced Important Questions Physics: Benefits of Embibe’s Test Series
There are about 16 lakh questions from which aspirants can choose their own for practising accordingly. Furthermore, aspirants can customise their difficulty level by choosing at their convenience. For every question aspirants solve, hints are available so that if they get stuck at any particular point, they can get step-by-step guidance regarding how to proceed further. The image below displays the insights provided by Embibe.
Now that we have discussed all the important questions for JEE Advanced Physics 2023, let us list down some of the important books for JEE Advanced Physics exam.
NCERT Physics Textbooks
NCERT Solutions for Physics Class 11 and 12
H.C Verma – Concepts of Physics (Vol. 1 and 2)
Halliday, Resnick,and Walker – Fundamentals of Physics
DC Pandey – Understanding Physics
I.E Irodov – Problems in General Physics
Freedman and Young – Understanding Physics
SS Krotov – Problems in Physics
Shashi Bhushan Tiwari – Problems and Solutions of Physics
FAQs on JEE Advanced Physics Important Questions
Aspirants may have some common questions regarding JEE Advanced Physics important questions, which are given as follows in the below-mentioned section.
Q: Is JEE Advanced Physics difficult?
Ans: Yes, the Physics section of JEE Advanced exam is one of the most difficult parts to attempt. However, IIT JEE aspirants need not worry. The very first step to studying for the Physics subject in JEE Advanced exam is by memorising the entire syllabus. Note down the important formulas and equations, and practice the numerical questions since this will help easily remembering the topics. It will help candidates to score more.
Q: When will the JEE Advanced 2023 be conducted?
Ans: JEE Advanced 2023 exam will take place on June 04, 2023.
Q: What reference books to read for JEE Advanced Physics?
Ans: Here are some reference books that aspirants can refer to while they are preparing for JEE Advanced 2023: – HC Verma – Concept of Physics (Part 1) – HC Verma – Concept of Physics (Part 2) – IIT JEE Physics by DC Pandey.
Q: How can I score good marks in the Physics section?
Ans: Scoring good marks in the Physics section can be done by regularly practising the sample papers and memorising each concept carefully. Furthermore, candidates should memorise all the graphical knowledge and chapter-wise formulas.
Q: What is the percent weightage for vectors in Physics?
Ans: The weightage of the topic Vectors ranges from 4-5% in Physics.
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