Your steps to solve the problems are very simple and clear. You don’t assume that people know already something. It is very important in teaching because student like me always need some refresher. Thanks for your help
The 35 comes from solving for the sum of moments at A to get By. The 3 forces producing a moment at A are: 1. The 25 (I’ll assume N for convenience) downward force on the beam 2. The 50 N downward force on the beam 3. And lastly, By Taking the moment of each of those (M=Fd) we get: 1. -25N • 1m (since it is 1 meter away from A horizontally) 2. -50N • 3m 3. +By • 5m Adding them up: 0 = - (25N•1m) - (50N•3m) + (By•5m) And solving algebraically for By gets 35.
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Just flunked a statics test, thanks for having made this video, it's helping me figure out where I went wrong. Cheers :)
Your steps to solve the problems are very simple and clear. You don’t assume that people know already something. It is very important in teaching because student like me always need some refresher. Thanks for your help
this!
I just spent an entire day trying to understand this and u made it possible in 20 min❤❤🎉thanks😊
Thank you
I really appreciate, so very easy to understand
Thank you sir this is amazing!
Great stuff, Dr. Clayton
quite helpful indeed....am out of the bushes now
well understood. thanks
Sir rollers I think must prevent rotation but it says it allows,can you explain it to me?
great video thanks!!
thank you
where did you get 35 from?
The 35 comes from solving for the sum of moments at A to get By.
The 3 forces producing a moment at A are:
1. The 25 (I’ll assume N for convenience) downward force on the beam
2. The 50 N downward force on the beam
3. And lastly, By
Taking the moment of each of those (M=Fd) we get:
1. -25N • 1m (since it is 1 meter away from A horizontally)
2. -50N • 3m
3. +By • 5m
Adding them up:
0 = - (25N•1m) - (50N•3m) + (By•5m)
And solving algebraically for By gets 35.
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