Question
Easy
Solving time: 1 mins
Two spherical soap bubbles of radii and in vacuum combine under isothermal conditions. The resulting bubble has a radius equal to:
Found 7 tutors discussing this question
Discuss this question LIVE
7 mins ago
Text solutionVerified
By surface energy conservation
Was this solution helpful?
11
Share
Report
Filo tutor solutions (3)
Learn from their 1-to-1 discussion with Filo tutors.
3 mins
Uploaded on: 1/6/2023
Was this solution helpful?
76
Share
Report
2 mins
Uploaded on: 1/6/2023
Was this solution helpful?
64
Share
Report
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
Questions from JEE Mains 2021 - PYQs
Question 1
Medium
Views: 5,541
Question 2
Hard
Views: 6,198
Question 3
Medium
Views: 5,946
Question 4
Medium
Views: 6,168
Practice questions from Mechanical Properties of Fluids in the same exam
Question 1
Medium
Views: 5,455
(a)
(b)
(c)
(d)
Question 2
Easy
Views: 6,066
(Assume that atmospheric pressure is density of water is )
Question 3
Medium
Views: 5,608
and its rotational speed is 2 rotations per second, then the difference in the heights between the centre and the sides (in cm) will be
(a)
(b)
(c)
(d)
Practice more questions from Mechanical Properties of Fluids
Question 2
Easy
Views: 5,941
Question 3
Medium
Views: 6,338
Question 4
Easy
Views: 5,583
Practice questions on similar concepts asked by Filo students
Question 1
Views: 5,173
Question 2
Views: 5,456
Question 3
Views: 5,267
Question 4
Views: 5,432
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 | Two spherical soap bubbles of radii and in vacuum combine under isothermal conditions. The resulting bubble has a radius equal to: |
Updated On | Jan 6, 2023 |
Topic | Mechanical Properties of Fluids |
Subject | Physics |
Class | Class 11 |
Answer Type | Text solution:1 Video solution: 3 |
Upvotes | 298 |
Avg. Video Duration | 2 min |