Question
Question asked by Filo student
State and prove law of conservation of energy in case of freely falling body. 1) Law of conservation of energy: Energy can neither be created nor be destroy Total energy remains constant in a given system. 2) Proof: Consider a freely falling body of mass ' ' released from a point ' '.
Found 5 tutors discussing this question
Discuss this question LIVE
7 mins ago
One destination to cover all your homework and assignment needs
Learn Practice Revision Succeed
Instant 1:1 help, 24x7
60, 000+ Expert tutors
Textbook solutions
Big idea maths, McGraw-Hill Education etc
Essay review
Get expert feedback on your essay
Schedule classes
High dosage tutoring from Dedicated 3 experts
Practice more questions on Waves and SHM
Question 1
Medium
Views: 5,620
Question 2
Hard
Views: 5,200
Question 3
Hard
Views: 5,650
(a) derive an expression for the radius of the Bohr orbit.
(b) find the value of for which the radius of the orbit is approximately the same as that of the first Bohr orbit for the hydrogen atom.
(c) find the wavelength of the radiation emitted when the mu-meson jumps from the third orbit to the first orbit. Rydberg's constant )
Question 4
Hard
Views: 5,212
Students who ask this question also asked
Question 1
Views: 5,676
Question 3
Views: 5,353
Question 4
Views: 5,636
Stuck on the question or explanation?
Connect with our Physics tutors online and get step by step solution of this question.
231 students are taking LIVE classes
Question Text | State and prove law of conservation of energy in case of freely falling body.
1) Law of conservation of energy: Energy can neither be created nor be destroy Total energy remains constant in a given system.
2) Proof: Consider a freely falling body of mass ' ' released from a point ' '.
|
Updated On | May 4, 2022 |
Topic | Waves and SHM |
Subject | Physics |
Class | Class 12 |
Answer Type | Video solution: 1 |
Upvotes | 60 |
Avg. Video Duration | 15 min |