Physics Video Lecture
Connecting Students in 221 Countries

Video Lectures

High School/JEE/NEET/IPhO Physics | 17-19 Yrs

Fluid Dynamics
Duration: 6.23 Min
 
Add to my sequences
Bookmark This Video
Duration: 4.48 Min
 
Add to my sequences
Bookmark This Video
Duration: 3.51 Min
 
Add to my sequences
Bookmark This Video
Module - 4 Turbulent Flow
Duration: 2.34 Min
 
Add to my sequences
Bookmark This Video
Duration: 2.47 Min
 
Add to my sequences
Bookmark This Video
Duration: 2.31 Min
 
Add to my sequences
Bookmark This Video
Duration: 7.43 Min
 
Add to my sequences
Bookmark This Video
Duration: 6.41 Min
 
Add to my sequences
Bookmark This Video
Duration: 1.48 Min
 
Add to my sequences
Bookmark This Video
Module - 10 Solved Example-3
Duration: 3.16 Min
 
Add to my sequences
Bookmark This Video
Module - 11 Solved Example-4
Duration: 4.45 Min
 
Add to my sequences
Bookmark This Video
Module - 12 Solved Example-5
Duration: 3.11 Min
 
Add to my sequences
Bookmark This Video
Duration: 5.42 Min
 
Add to my sequences
Bookmark This Video
Duration: 4.49 Min
 
Add to my sequences
Bookmark This Video
Module - 15 Solved Example-6
Duration: 4.05 Min
 
Add to my sequences
Bookmark This Video
Module - 16 Solved Example-7
Duration: 4.19 Min
 
Add to my sequences
Bookmark This Video
Duration: 4.08 Min
 
Add to my sequences
Bookmark This Video
Module - 18 Solved Example-8
Duration: 3.13 Min
 
Add to my sequences
Bookmark This Video
Module - 19 Solved Example-9
Duration: 4.00 Min
 
Add to my sequences
Bookmark This Video
Duration: 3.25 Min
 
Add to my sequences
Bookmark This Video
Duration: 3.01 Min
 
Add to my sequences
Bookmark This Video
Duration: 2.48 Min
 
Add to my sequences
Bookmark This Video
Duration: 3.32 Min
 
Add to my sequences
Bookmark This Video
  1.  
  2. Sir if we are given to find the recoil velocity of the vessel after the ejection of the fluid . How will we find it ?
    9 years ago by Mohak Sharma
    Ans 1 ->
    Due to fluid ejection a force is exerted on the vessel due to which it accelerates... you can write its acc = F/m and integrate to find the vessel velocity as a function of time...
    9 years ago by Physics Galaxy
    Ans 2 ->
    conservation of momentum leads to v=pav^2
    9 years ago by ABHISHEK MALAKAR

    Post your answer here

  3.  
  4. can you p.s. tell me how the expression of flow rate of liquid ejection is written
    10 years ago by himanshu chhabra
    Ans 1 ->
    Pl follow all videos in sequence... flow rate of liq is product of flow vel and cross sectional area... I explained it earlier...
    9 years ago by Physics Galaxy

    Post your answer here