Question
Medium
Solving time: 3 mins
The wavelength of de-Broglie wave is , then its momentum is
Text solutionVerified
According to de-Broglie hypothesis
Where, is Planck's constant
Where, is Planck's constant
Was this solution helpful?
29
Share
Report
Video solutions (8)
Learn from their 1-to-1 discussion with Filo tutors.
5 mins
Uploaded on: 7/13/2022
Was this solution helpful?
86
Share
Report
12 mins
Uploaded on: 8/15/2022
Was this solution helpful?
68
Share
Report
Found 2 tutors discussing this question
Discuss this question LIVE
15 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 from Dual Nature of Radiation and Matter
Question 1
Medium
Views: 6,024
Question 2
Easy
Views: 5,612
Question 3
Medium
Views: 5,893
Question 4
Easy
Views: 6,005
Practice questions on similar concepts asked by Filo students
Question 1
Views: 5,625
Question 4
Views: 5,332
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 | The wavelength of de-Broglie wave is , then its momentum is |
Updated On | Sep 23, 2022 |
Topic | Dual Nature of Radiation and Matter |
Subject | Physics |
Class | Class 12 |
Answer Type | Text solution:1 Video solution: 8 |
Upvotes | 843 |
Avg. Video Duration | 4 min |