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

Gravitational Field
Duration: 3.09 Min
 
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Duration: 3.36 Min
 
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Duration: 3.09 Min
 
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Duration: 1.41 Min
 
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Duration: 4.02 Min
 
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Duration: 3.22 Min
 
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Module - 16 Solved Example-4
Duration: 2.44 Min
 
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Module - 17 Solved Example-5
Duration: 2.42 Min
 
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Module - 18 Solved Example-6
Duration: 4.43 Min
 
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Module - 19 Solved Example-7
Duration: 2.21 Min
 
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Duration: 6.44 Min
 
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Duration: 1.26 Min
 
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Duration: 5.27 Min
 
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Duration: 3.30 Min
 
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Module - 26 Solved Example-8
Duration: 1.57 Min
 
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Module - 27 Solved Example-9
Duration: 2.03 Min
 
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Duration: 1.34 Min
 
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Duration: 3.18 Min
 
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Duration: 7.57 Min
 
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Duration: 2.23 Min
 
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Duration: 3.55 Min
 
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Duration: 5.54 Min
 
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Duration: 5.07 Min
 
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Duration: 3.24 Min
 
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Duration: 1.39 Min
 
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Duration: 4.19 Min
 
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Duration: 3.15 Min
 
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Duration: 2.36 Min
 
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Duration: 2.09 Min
 
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Duration: 3.51 Min
 
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  1.  
  2. Sir why is yt channel and website not working
    11 months ago by Palash Bairagi

    Post your answer here

  3.  
  4. sir audio nahi aa rha
    3 years ago by Abhishek Singh

    Post your answer here

  5.  
  6. Sir how can we get the solutions of the Qusets.
    5 years ago by Bighnesh Sahoo

    Post your answer here

  7.  
  8. I think there are a few wrong answers in the gravitation question set 1
    6 years ago by Anubhav Mahapatra

    Post your answer here

  9.  
  10. Will G remain same wherever we go ?
    6 years ago by Roy Ankush Sanjay
    Ans 1 ->
    yes
    6 years ago by Sonu Raj

    Post your answer here

  11.  
  12. gravitation Quset 3 question no 24 all answer incorrect plz answer
    7 years ago by narayan kalani

    Post your answer here

  13.  
  14. A body of mass 1 Kg weighs 1/6 on the moon. If the moon radius is 1.768 x 10^6 m then what will be the mass of the moon?
    8 years ago by Suvradri Maitra
    Ans 1 ->
    As the acceleration due to gravity on earth is 9.8m/s^2 Therefore; ((G* mass of moon*1)/Radius of moon^2)=9.8/6
    8 years ago by Jatin Vyas

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  15.  
  16. 3 equal masses are kept at the vertices of of a equilateral triangle.calculate net force on each mass??
    10 years ago by annad singh
    Ans 1 ->
    You can find the force by Gm1m2/r^2 on each and calculate the vector sum of two forces acting at 60° on each mass...
    10 years ago by Physics Galaxy

    Post your answer here