Thank you so much sir,🙏 this was much needed for students . Your channel is the only one which is helpful for mechanical engineering students in the entire RUclips community.
Sir shouldn't we add the length of tie rod to the radius, because the tie rod is attached to the surface and not the center. Which makes the hypotenuse 30 cm .... Isn't it so ????
Mr perfectionist
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Thank you so much sir,🙏 this was much needed for students .
Your channel is the only one which is helpful for mechanical engineering students in the entire RUclips community.
Ap Sppu se ho ?
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2024 anyone 😂
Thank you so much sir
धन्यवाद गुरु जी..
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Amazing Work sir!
Thank you so much!
Nice sir
Thank you so much sir ❤
Thanks 🙏🙏🙏🙏🙏💕💕🙏🙏🙏
Sir mai Mechanics me pass ho gya es video lacture se, wrrna mujhe Mechanics smjh nhi aati thi
Thanku sir😊😊😊😊🙏🙏🙏🙏
Superb sir ji
THANK YOU SO MUCH............
16/12/2022
Sir isse lami's theorem se bhi kar sakte hai na?
Continue class sir
Yes definitely
Thanks
Op sir💥
Done
Sir if they ask to find out the tension (T) in the tie rod?
The force in tie roid is similar to the tension.
Thank u sir
Auxiliary views chapter ka video kad banayege
🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏
Sir, can we solve this problem using lamis theorem ?
Yes absolutely
1st
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@@TIKLESACADEMY welcome sir
Sir hindi numerikal bataya kariye
Sir continuous class chalate rahiye
Yes 100% .... Please keep in touch
Sir isko lami se bi ker sakte hai. Happy holi
Yes 100% possible.
🙏🙏🙏🙏🙏🙏🙏💕💕💕💕💕🙏🙏🙏🙏🙏
Sir shouldn't we add the length of tie rod to the radius, because the tie rod is attached to the surface and not the center.
Which makes the hypotenuse 30 cm ....
Isn't it so ????
No the drawing was given in the question but still you're kind of right
Please upload beam and frame & truss problem
Yes definitely
But Srr Aapne 1st And 2nd Problem Me Weight Aapne Uppar se liya tha,
Plz again
Continue class kare sir please
Yes definitely
@@TIKLESACADEMY thank you very much sir
Sir how to find tension T
Sir if they ask to find angle made by the string with the wall .
How can we do it....
Let angle of string be x then
Angle ACO=90°
Angle AOC=__
So in ∆ AOC
x+_+90=180
Can yo solve having 3 cylinder
Can someone answer my question- Why didn’t we consider the reaction force at point A?
Not any reaction force in the given system
Sir how to calculat tension
Tuan yang sangat baik
sir I am finding trusses difficulty plz help me out
Please wait.... Videos on TRUSS will come soon.... please wait and keep in touch
lol i solved it using lamis thm
Sir I have a doubt. Why aren't we considering the reaction at A ? Could someone please tell, I would be most greatful.. 😀
there is no reaction at A , we only consider reaction forces at points which are in contact with the surface like point C
I can't understand
Thanks
Thank you sir
🙏 thank you sir
Thank you sir
Nice Sir