Hello Dr. Andalibi, I hope you're doing well. Thank you for creating such an informative video. I came across it on my TH-cam homepage and since it covers my favorite topic, I watched it all the way through. I noticed a few typos in the final drawing that I wanted to bring to your attention. Firstly, there is a distinction between the meanings of A-B-C and A|B|C, and the same applies to A-B. I believe you intended to use A|B|C. In Solidworks, you should click "Add Datum" multiple times and write A, B, C. Secondly, the drawing is not composite tolerancing, but rather two-segmented position tolerance, as the meanings differ. For composite tolerancing, you need to combine both position tolerances into one.
Hello Dr. Andalibi, I hope you're doing well. Thank you for creating such an informative video. I came across it on my TH-cam homepage and since it covers my favorite topic, I watched it all the way through. I noticed a few typos in the final drawing that I wanted to bring to your attention. Firstly, there is a distinction between the meanings of A-B-C and A|B|C, and the same applies to A-B. I believe you intended to use A|B|C. In Solidworks, you should click "Add Datum" multiple times and write A, B, C. Secondly, the drawing is not composite tolerancing, but rather two-segmented position tolerance, as the meanings differ. For composite tolerancing, you need to combine both position tolerances into one.
Hi Dr. Alamdari. Thank you so much for your attention, expertise, and feedback. I just published a new video and clarified these two issues.
Hello, I'm an engineering surveyor. I found very interesting this video. I have a question on how are the measurements made? Thank you.
This is not composite position tolerance... this is single segment position tolerance
That is a perpendicularity