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Very good and clear explanation, thank you very much! Can you please provide references (standards) from which these formulae are taken?
Thank you! The Simplified Engineering book can be a good source to read further on these. Here is the link: amzn.to/3Zf7y77
@@arequestions5064 thank you for suggestion, but can you please reference the standard which mentions these formulae? Like EN or ASME
@@juratomorad8641 the formulas of moment depend on Newton’s law of motion. The safety factor is defined by the IBC 2021.
Thank you for the video! I was struggling to understand how to calculate this but you made it make sense
Sounds awesome! Happy to help.❤
Hello! Thanks for the video!I've got a question. You mention a safety factor which is defined as 1.5. Which codes define that?
Hi! Check out IBC 2021, Code 18.2.3 Safety factor.
how do i calculate factor of safety against sliding if it was given?
Very good and clear explanation, thank you very much! Can you please provide references (standards) from which these formulae are taken?
Thank you! The Simplified Engineering book can be a good source to read further on these. Here is the link: amzn.to/3Zf7y77
@@arequestions5064 thank you for suggestion, but can you please reference the standard which mentions these formulae? Like EN or ASME
@@juratomorad8641 the formulas of moment depend on Newton’s law of motion. The safety factor is defined by the IBC 2021.
Thank you for the video! I was struggling to understand how to calculate this but you made it make sense
Sounds awesome! Happy to help.❤
Hello! Thanks for the video!
I've got a question. You mention a safety factor which is defined as 1.5. Which codes define that?
Hi! Check out IBC 2021, Code 18.2.3 Safety factor.
how do i calculate factor of safety against sliding if it was given?