Description
*2024(29th jan shift 2) solutions***π
****2024 complete solution playlist**ππ€π»
*****2025 complete solution playsit*****
***All JEE Main/AIEEE questions playlist***ππ€π»
***All NEET PYQs playlist***ππ€π»
β β β πYou can also find for chapterwise playlist of JEE MAIN and NEET on the channelππ»ππ»β β β
#jee,#jeemain,#iitjee,#neet,#pyq,#importantquestions,#jeemainpapersolution,#jeemain2025,#physicsmonk
A planet takes 200 days to complete one revolution around the Sun. If the distance of the planet from Sun is reduced to one fourth of the original
distance, how many days will it take to complete one revolution ?
(1) 25 2) 50. 3) 100. 4) 20
Welcome to Allen.AskDoubtnut.com β Indiaβs Largest Platform for Instant Doubt Solutions
Allen.AskDoubtnut.com is the ultimate destination for instant video solutions to your doubts in Physicsβfrom Class 11th to JEE Advanced and NEET level. With a growing library of over 15 lakh+ expert-created video solutions, we make learning fast, easy, and effective.
Just click a photo of your doubt using the AskDoubtnut in the end and submit in google, and get an instant, step-by-step video explanation. Itβs the simplest way to solve doubts in secondsβwhether youβre studying for CBSE board exams, IIT-JEE, NEET, or any other competitive exam.
Why AskDoubtnut.com?
β’ 10,00,000+ Free Video Solutions
β’ Covers NCERT, JEE Main, JEE Advanced, NEET, and State Boards
β’ Unlimited Doubt Solving with Just One Click
β’ Instant, Concept-Based Answers by Experts
β’ 24Γ7 Learning Support via the AskDoubtnut App
Trusted by millions of students across India, Allen.AskDoubtnut.com helps you turn doubts into confidence. No more waitingβask, learn, and grow with Allen.AskDoubtnut.com!
- Master JEE Physics: Solve Unpolarised Light Intensity with Polaroid Filters
- JEE MAIN 2024 Power of Light Intensity Derivation | JEE/NEET Solutions
- JEE MAIN 2024(29th Jan Shift 2) Wire Length & Radius Solutions | Allen.AskDoubtnut
- JEE MAIN 2024(29jan shift2)N moles of a polyatomic gas (f = 6) must be mixed with two moles of a mo
- JEE MAIN 2024(29jan shift2)Given below are two statements :Statement I : Most of the mass of the ato
- Master JEE Physics: How to Solve Unpolarised Light Intensity with Polaroid Filters
- JEE MAIN 2024 Power of Light Intensity Derivation | JEE/NEET Solutions | Watch Now!
- JEE MAIN 2024(29th Jan Shift 2) Wire Length & Radius Solutions | Allen.AskDoubtnut
- JEE MAIN 2024(29th Jan Shift 2) Gas Mixture Problem Solution | NEET/JEE Doubt
- JEE MAIN 2024(29th Jan Shift 2) Atom Structure: Rutherford Model Explanation
- NEET 2025:To an ac power supply of 220 V at 50 Hz, a resistor of 20 Ξ©, a capacitor of reactance 25
- NEET 2025: (By 2 methods)In some appropriate units, time (t) and position (x) relation of a moving p
- NEET 2025: AB is a part of an electrical circuit (see figure). The potential difference βVA β VBβ, a
- NEET 2025:A ball of mass 0.5 kg is dropped from a height of 40 m. The ball hits the ground and rises
- NEET 2025:The current passing through the battery in the given circuit, is:
Frequently Asked Questions
How to prepare for IIT-JEE Physics?
To prepare for IIT-JEE Physics, focus on understanding concepts rather than memorizing formulas. Practice solving a variety of problems, especially previous yearsβ questions. Create a study schedule that covers all topics, with extra time for challenging areas like Mechanics and Electromagnetism. Regular revision and mock tests are essential for success.
What is the difference between elastic and inelastic collisions?
In elastic collisions, both momentum and kinetic energy are conserved. Examples include collisions between hard billiard balls. In inelastic collisions, only momentum is conserved while some kinetic energy is converted to other forms like heat or sound. Most real-world collisions are inelastic to some degree.
How does electromagnetic induction work?
Electromagnetic induction is the process of generating an electromotive force (EMF) in a conductor by changing the magnetic field through it. According to Faradays Law, the induced EMF is proportional to the rate of change of magnetic flux. This principle is the basis for generators, transformers, and inductors, which are essential components in electrical power systems.