at finding the interval of b1 we plug the points A(0,80) and D(40,40) , but I could not find the interval of b2 by using these point which points do we have to plug to find the interval of b2 ?
Hello! It may be seen at 10:22, to obtain the allowable values of b2, we may utilize the point (0,100) and C(40,20). I hope this answer is helpful. Thanks for watching my videos.
For b2, it also works if you imagine shifting the constraint left-right. You may shift Carpentry constraint to the right until touching x2 = 100. You may shift it to the left until touching the point C. Somehow, I visualized it as "moving up & down". However, they are really the same things. Thanks for watching my videos!
you are my hero. Thank you sooooooo soooo muuuchhhh
Hello there, I'm glad that I could become your hero. Thanks for watching my videos!
thank you for being here youre a great teacher sir
Thanks! I'm glad that you found my videos helpful.
Thank you for explaining so well.
You're welcome! Glad you find the video useful & thanks for watching my videos.
at finding the interval of b1 we plug the points A(0,80) and D(40,40) , but I could not find the interval of b2 by using these point which points do we have to plug to find the interval of b2 ?
Hello! It may be seen at 10:22, to obtain the allowable values of b2, we may utilize the point (0,100) and C(40,20). I hope this answer is helpful.
Thanks for watching my videos.
for knowing the limits of b2 , why did u choose to move the carpentry constraint up-down rather than left-right...as was the case in case of b1?
For b2, it also works if you imagine shifting the constraint left-right. You may shift Carpentry constraint to the right until touching x2 = 100. You may shift it to the left until touching the point C.
Somehow, I visualized it as "moving up & down". However, they are really the same things.
Thanks for watching my videos!
Thanks :)
You're welcome! Thanks for watching my video.