It is a ditto derivation which is available in R.K.Bansal.. Both in this video and in the book they never really explain how do they get the equation of Cc which is mentioned in the video @6:11 Can you say how you got that equation. What is the principle behind it?
Cd=actual discharge/theoretical discharge,by multplying v2 with area taking into account Coefficient of contraction we can get (Q(actual)) ,then without taking into account Coeff. of contr. we can get theoretical disch. there ratio then will give Cd as used above.
i came here only bcoz of that relation between cd and cc, but he cant explain how that relation came.....so bad .....instead we can learn from Sunil mohod sir....
In fluid Power, you are going the wrong way. Reference: Rabie, M Fluid Power Engineering, McGraw Hill, page 26 and Watton, J Fundamentals of Fluid Power Control, Cambridge University Press, page 75.
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Exactly like a school teacher. Never understood were your equations pop up from. You need improvement bro.
Explanation bahut achche se samjhaya .
where does Cc in terms of Cd comes from?
@2:25 why we are not taking z1=z2 in case of orifice meter???(like venturimeter)
You are not explaining it an efficient way I came here to understand about cd but u could not make me understand
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Where the substitution came from❓❓❓❓
It is a ditto derivation which is available in R.K.Bansal.. Both in this video and in the book they never really explain how do they get the equation of Cc which is mentioned in the video @6:11 Can you say how you got that equation. What is the principle behind it?
Cd=actual discharge/theoretical discharge,by multplying v2 with area taking into account Coefficient of contraction we can get (Q(actual)) ,then without taking into account Coeff. of contr. we can get theoretical disch. there ratio then will give Cd as used above.
@@siddhartharaja9413 brother can you please elaborate it...
i came here only bcoz of that relation between cd and cc, but he cant explain how that relation came.....so bad .....instead we can learn from Sunil mohod sir....
Exactly my point. I came searching for the same. The relation between Cc and Cd. Will have to search in other videos i guess.
Sir from were that assumption came from
How a1 ,a2 are different.
From where a1 comes
Excellent explanation..💯
Sir...you are awesome as compare to another...
VIVEK GAUTAM R.I.P english😂
I only understood is when he said Orifice plate 😂
how do we calculate the distance of pressure tappings from the oriface plate
In fluid Power, you are going the wrong way. Reference: Rabie, M Fluid Power Engineering, McGraw Hill, page 26 and Watton, J Fundamentals of Fluid Power Control, Cambridge University Press, page 75.
I stuck on Cc in Textbook, so i came here... Here too same problem... From where the hell Cc came?
I have pressure before orifice but if we installed orifice plate ,how to calculated pressure after orifice plate .
Please reply me .
Sir kya orifice meter me Q actual and theoretical same hota hai
Where did Cc in terms of Cd come from?
Good job sir I love you
Rat ke padha rahe hai kya equation kaha se aa rhi hai koi pata nahi hai
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awesum...you literally saved me here...
How doing find the co efficient of contraction at orifice meter
superb sir
where has a1 come or a1 which cross section area reperesent
no one explains how to eliminate Cc. Actually Cd = Cc × Cv . but how to get term Cv
Thankyou sir
Exactly like a school teacher. Never understood were your equations pop up from. You need improvement bro.
what is the parameter a2, a0, c???
Please explain how to design an orifice plate for the given flow rate
Land isko kuch nai ata hai
हिंदी का इस्तेमाल किया करे kyoki hum cbse wale thoda विस्तार मैं samagh आता है
Thanx sir
How we got cd equation sir
ruclips.net/video/W-iMyVF4REI/видео.html
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Pitot tube video chahiye
👍
👍
I hope if it was translated into Arabic 💜
ruclips.net/video/W-iMyVF4REI/видео.html
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osm
Thik se explain kar bhai
nice
sir book sai dekh k copy kr rahy Hain ya Sara hamy b ataa Kuch Naya b Bata deea karain...... ajeeb sir hai....
Thanks sir
Just wasted 7 minutes . #bakwas
Most irritating
hindi language hindi please
Very bad explaition