@@prasadkhorgade actually my problem was that in the previous example he told d= s+2Cyy and here he said that d= total side - Cyy. So I got it cleared by reading Cl. 7.7.2.3 (effective depth, logitudinally, not less than the perpendicular distance between the centroids of the main members). It depends on how the angle or channel sections are placed, back-to-back or face - to-face.
@10:59 Z should be up to CG of angle.
At 07:42, there is 5% increase in effective slenderness ratio of laced member in code(7.6.1.5) but here increase in effective length of member by 5%
Yes... It doesn't matter as increase is to be multiplied to the numerator.. so even if you multiply it to slenderness ration, answer wouldn't change.
@18:48 The double lacing drawn is not as per code (page 49)
How did he calculate number of bolt. Shouldn't it be
2Vcot 45/n?
In design of connection what we have to take in shear plane 2 or 1 for single,double lacing ?
Isn't the formula for tie plate design like for depth and thickness changed as compared to previous example? 32:47
Check the symbols and it's meaning used in these particular lecture
@@prasadkhorgade actually my problem was that in the previous example he told d= s+2Cyy and here he said that d= total side - Cyy.
So I got it cleared by reading Cl. 7.7.2.3 (effective depth, logitudinally, not less than the perpendicular distance between the centroids of the main members).
It depends on how the angle or channel sections are placed, back-to-back or face - to-face.
If face-to-face, then
d= total side - 2Cyy.
If back-to-back, then
d= s+ 2Cyy
is l value is wrong
no of bolt = 2fcos theta / r