JEE Main: How To Prepare For Engineering Entrance Exam

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JEE Main: How To Prepare For Engineering Entrance Exam

Joint Entrance Examination (JEE) Main preparation is difficult, but with the appropriate approach and commitment, students can succeed on this difficult exam. Candidates must start preparing for the exam right away because the National Testing Agency (NTA) will probably issue the exam schedule in December.

Important topics for JEE Main 2024

Physics:  include the following areas of study: kinetic theory of gases, thermodynamics, work and power, modern physics, rotational motion, gravitation, electrostatics, laws of motion, electromagnetic induction and waves, reflection and refraction, electricity and magnetism, atoms, alternating current, photoelectric effect, waves, and sounds.

Chemistry: includes the following topics: salt analysis; chemical bonding; chemical kinetics; coordination compounds; order of reaction; faraday's laws; conductivity and conductance; P and D block elements; hybridization; nomenclature; isomerism; Alkyl halides and aryl halides; and chemical thermodynamics, equilibrium, redox reactions, and electrochemistry.

Mathematics: applications of derivatives, complex numbers, quadratic equations, determinants and matrices, decisive integrals, and area under the curve combinations and permutations, Series and Sequence, Mathematical reasoning, the binomial theorem, continuity and differentiability, three-dimensional geometry, the use of derivatives, differential equations, and vector algebra

Subject-wise, important tips


— Consistent practice is key. Solve a variety of problems from different sources, including textbooks, reference books, and online resources.

— Test your knowledge with a variety of questions that range in difficulty. Start with simpler issues and work your way up to more difficult ones.

– Acquire and use shortcut methods for problem-solving. This can help you get more exam time.

– Time yourself while practice to replicate the atmosphere of an exam. To increase speed, try to complete tasks within the allocated time.



– Place more emphasis on conceptual understanding than rote memorization. Recognize the underlying theory of concepts.

— Understand difficult concepts like wave propagation, electromagnetic fields, and circuits by using diagrams and other visual aids.

— Numerical computations are a part of physics. To improve your problem-solving abilities, practice resolving various number puzzles.

— Use examples from the real world to connect theoretical ideas to their application.



— Pay close attention to periodic patterns, chemical processes, and the characteristics of elements and compounds. To memorize qualities and reactions, use mnemonic devices.

— Recognize functional groups, stereochemistry, and reaction processes. To enhance problem-solving abilities, practice answering problems with a reaction component.


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