Excellent work as always. Could you write all the formulas that you are using for the calcs. You need min reinforcement at the top in both directions as well. Could please do one combined footings with eccentric loadings. Thank you
Mam u have calculated Ast for whole section 2650 x 667 mm, But u calculated bar spacing for 1000 mm strip. So at 9:42, There should have 2650mm instead of 1000mm. Actual spacing will be 297 mm for 20 mm dia bar.
Very Well explained Madam 👏 However I have a question on the Bending moment, A column passes down the axial load on to the foundation from which we calculate the Bending moment on the foundation which in your example it comes to 585 KNm, If the column had an axial load together with a Bending Moment say 'M' do we add this bending moment to 585 KNm and then design the Pad foundation with 585 KNm + 'M' to get the total bending moment on the footing? Or should we ignore the M?
No need to compare Net soil pressure at ultimate load with SBC. Actual soil pressure should not exceed SBC. Actual soil pressure q = (load/area)+Self weight of footing + Self weight of soil. Please refer the below link for more clarification th-cam.com/video/fkk6zg8aPOU/w-d-xo.html th-cam.com/video/Z6fNmXgWAws/w-d-xo.html
Thank you for the notification. The size of the footing is 2.56 x 2.56m and qu is 343.32 kN/m2. Kindly ignore the calculation error. This information was pinned in the comment box.
Double check the calculations tho Just two major errors within a few seconds Footing sides = SQRT(6.6) is NOT 2.65 qu is not 320.4 I think she fell on the calculator or something....
The size of the footing is 2.56 x 2.56m and qu is 343.32 kN/m2.
Kindly ignore the calculation error.
Nice explanation
You're the best Mam
Excellent mam
Very nicely explained,
Thank you very much once again.
Regards
these type of examples are available every where, Do you have any example of footing where top reinforcement is provided ??
Thanks for giving your Knowledge. Please post raft footing for reduce the steel alternative to mat footing.
Please make video on DESIGN OF DOUBLE ECCENTRIC OR CORNER FOOTING
Great
Well explained especially how the bending moment comes about and why reinforcement steel is provided at the bottom.
Thank you!
Excellent work as always. Could you write all the formulas that you are using for the calcs. You need min reinforcement at the top in both directions as well. Could please do one combined footings with eccentric loadings. Thank you
Minimum reinforcement may not be necessary especially if the ultimate moment is greater than the design moment. Otherwise, it is necessary.
Mam well explained thank you
Nic👍
Mam u have calculated Ast for whole section 2650 x 667 mm, But u calculated bar spacing for 1000 mm strip. So at 9:42, There should have 2650mm instead of 1000mm. Actual spacing will be 297 mm for 20 mm dia bar.
Very Well explained Madam 👏 However I have a question on the Bending moment, A column passes down the axial load on to the foundation from which we calculate the Bending moment on the foundation which in your example it comes to 585 KNm, If the column had an axial load together with a Bending Moment say 'M' do we add this bending moment to 585 KNm and then design the Pad foundation with 585 KNm + 'M' to get the total bending moment on the footing? Or should we ignore the M?
Thanks for sharing valuable knoweledge
Glad it was helpful!
Mam also post how to find the depth of a footing and depth of beam
please make video about shear wall design
Hello, I would like to ask how do you prepare your presentation, just like that hand writing. How did you do that? thanks
Can we find bearing capacity of soil
Hi madam i like your lecture
Thank you! 🙂
Mam where to provide double mat in footing and why? Please explain.thank you.
@ 5:10 in area of footing calculation why you have multiply 1500 with 1.1 and from where it came
1.1 is 10% of back fill load.
(1500X1.1) is the total load or 1500+((1500X10)/100).
No of barsequals totalastdividedbysmallast
How the net soil pressure can be greater than SBC?
Net soil pressure is calculated at ultimate load.
Factor of safety - 1.5
Can the soil resist more pressure than SBC,how?pls explain.
No need to compare Net soil pressure at ultimate load with SBC.
Actual soil pressure should not exceed SBC.
Actual soil pressure q = (load/area)+Self weight of footing + Self weight of soil.
Please refer the below link for more clarification
th-cam.com/video/fkk6zg8aPOU/w-d-xo.html
th-cam.com/video/Z6fNmXgWAws/w-d-xo.html
Tk u
Mam I think the area of footing will be 2.56*2.56 then the area will be nearly 6.6m2 please check once.
Yes, you are correct.There was a error.Thank you for the notification.
When you are calculate the size of flooting Area = 6.6 m^2 , side = squre root 6.6 = 2.56 by you can take 2.6 Bymistake you take 2.65 instead of 2.56
Thank you for the notification.
The size of the footing is 2.56 x 2.56m and qu is 343.32 kN/m2.
Kindly ignore the calculation error.
This information was pinned in the comment box.
Bending moment is not calculated properly,
Double check the calculations tho
Just two major errors within a few seconds
Footing sides = SQRT(6.6) is NOT 2.65
qu is not 320.4
I think she fell on the calculator or something....
Kindly ignore the calculation error. look into the concept.