Hi! For the last example, you said the shape of the Moment diagram transitions from a parabolic shape to a quadratic shape. Did you mean parabolic to cubic? I always thought that the shape parabolic and quadratic were the same. Thanks!
That was the way the question was set up. There are three loads. It would've caused less confusion if the point load was different, say 10N, then you'd have the equation start with -10 x 2 rather than -6 x 2.
never knew how to do the increasing and decreasing distributed load until i watched this video. thanks!
Thank you very much for this video! This is the best explanation on the internet!
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Amazing sir, I never saw any video more in depth explained like this.
Great to saw your videos
4:30 I didn't get where the 15 come from I think it should be 50
Hi! For the last example, you said the shape of the Moment diagram transitions from a parabolic shape to a quadratic shape. Did you mean parabolic to cubic? I always thought that the shape parabolic and quadratic were the same. Thanks!
I think for the green triangular distributed load the reaction at the roller should be 200 N and the pin should be 100 N...
The total force of the triangular region is (1/2)*b*h = (1/2)*(30 [N/m])*(10 [m]) = 150 [N]. I think you forgot the factor of 1/2.
Pls tell the area of the BM diagram
the example at @8:20 is wrong right? why is there -6(2) but also - (1.5)(4)(2) which is just 6.. why is there two -6 forces???
That was the way the question was set up. There are three loads. It would've caused less confusion if the point load was different, say 10N, then you'd have the equation start with -10 x 2 rather than -6 x 2.
Sirf bending moment Kaise daygram kaisi bnate hai
I think for the last example the slope is 30-3x
AHHHHHHHHHH!!!
Please video send karo sir