Q&A

Is solving Irodov beneficial?

Is solving Irodov beneficial?

Solving I.E. Irodov can be helpful , only if you solve some particular questions which require proper application of concepts among the vast no of problems in that book. Solving some of those conceptual questions can help you strengthen your concepts and will definitely be helpful in the JEE.

Is Pathfinder tougher than IE Irodov?

Pathfinder for Olympiad and JEE Advanced Physics by Arvind Tiwari and Sachin Singh. This book contains very difficult problems and is even harder than IE Irodov. It challenges your knowledge in physics and your problem solving skills.

Is Irodov enough for inpho?

Yep, IE Irodov is very GOOD for IPHO but calling it sufficient won’t do any justice to the book or the exam. Think yourself that so many students gave IPHO but only a handful would get success in pre-IPHO and IPHO exams.

Is Irodov’s book is good for JEE preparation?

The book is really intended for those who are passionate about physics problem solving. Now as far as the preparation of JEE aspect is concerned, you should note that many questions from Irodov are not in current JEE syllabus.

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Is IE Irodov’s physics book Good for IITs?

However, the book includes very tough problems that one does not need to master, according to the current IIT syllabus. The best-covered topics in IE Irodov’s Physics book are Basis of Vector, Trigonometry, and Calculus.

Is IE Irodov hard to solve?

Is IE Irodov very tough? The book is not very tough, but involves use of advanced Mathematics and applications of multiple concepts from Physics in every problem. Students who have strong fundamentals can solve the book without a lot of difficulty.

Which is the best book for General Physics for IIT JEE?

Problems in General Physics by I.E Irodov Solution is helpful for students aspiring for IIT JEE Mains/Advanced and other engineering/medical exams. The solutions are prepared by Ex IIT Kanpur Graduate. PART THREE. ELECTRODYNAMICS 3.1. Constant Electric Field in Vacuum 3.2. Conductors and Dielectrics in an Electric Field 3.3. Electric Capacitance.