Dear friends, let me tell you about the problem with integration: Actually he has considered wrong direction while deriving derivation for ratio of Tension. The mistake is that he has considered same figure which he has used for the determination of Power in which direction is taken as clockwise. If he consider anticlockwise direction instead of clockwise the equation of power becomes (T1-T2) v. which will make T1>T2. If you consider this, then you will find that his derivation is correct if the direction of pulley is reversed. But I really appreciate his clarity of concept and pace of explanation. Best wishes dear ...
A flat belt has a speed of 22m.s and Is lifted to a pulley with diameter of 380mm ..if the effective pull is 210N . Calculate the power transmitted by the belt Va
Thank you for the educational vid Aryan My question; How do we assume that the direction of tension are heading towards each other? What if the direction are opposed too each other? Would that be an accurate assumption too? Please advice
Dear friends, let me tell you about the problem with integration: Actually he has considered wrong direction while deriving derivation for ratio of Tension. The mistake is that he has considered same figure which he has used for the determination of Power in which direction is taken as clockwise. If he consider anticlockwise direction instead of clockwise the equation of power becomes (T1-T2) v. which will make T1>T2. If you consider this, then you will find that his derivation is correct if the direction of pulley is reversed. But I really appreciate his clarity of concept and pace of explanation. Best wishes dear ...
Sir you explained like a technical expert. Thank you
A flat belt has a speed of 22m.s and Is lifted to a pulley with diameter of 380mm ..if the effective pull is 210N .
Calculate the power transmitted by the belt
Va
Your understanding level is nice 👍👍 . Thanku so much.
sir According to ur Final equation for tensions in belt ratio... T1 should be tension at tight side and T2 be tension in Slack side...
Sir you explanations of concept are very good
Thank you
Good explanation thank you for your support go ahead.
This is the best...let me also start an academic youtube channel
hello Sir, are these formulas can also be applied for timing belts (belt use for 2 gears)?
Thank you so much
Thank you so much ❤️🥰
Sir, Had u uploaded lecture of RATIO OF FRICTION TENSION in V-belt or rope.. If yess,sir plzzz send me link of that vedeo...
Here the integration limit should be lower to higher tension (I.e T1 to T2 ) then we get correct tension ratio according to assumption.
can you drive the formula with some values
Thanks
Sir..
Sir t1 is tight side tension and t2 is slack side tension
Thank you for the educational vid Aryan
My question; How do we assume that the direction of tension are heading towards each other?
What if the direction are opposed too each other? Would that be an accurate assumption too?
Please advice
Yes it would
Integrate glt kyu kr diya bhai..lower limit aur upper limit me ulta phs gye..😅😅
By d way nice explanation 👍👍👍keep it up..
if T2>T1, why the upper limit is T1..?
Because t2 is tight side which has larger tension than slack side
it should had been Ln not log