Quint, these videos are absolutely amazing. I swear I've been checking KZbin every 6 months for the last 6-8 years looking for good GD&T tutorials. Please keep going. There is so much to cover and you are doing an incredible job. I would gladly support your videos on Patreon or something if you keep pumping them out.

As a student going in to the second term of Machine Manufacturing Technology at PCC, I can honestly say that this video series is and will be like gold. The faculty members should consider having these added to the GD&T syllabus. Thank you!

One of the best explanation on virtual condition. we KZbin community thank you wholeheartedly for this amazing work!

Thank you for putting these videos together. I'm watching the first one now and plan on watching all of them.

I followed each and every video of yours & learned the basic GD &T clearly without spending a penny, thank you Quint for this post. I wish Our would have explaining skills like You.

Your explanations are by far the best and easiest explanation I have ever seen! Thank you for making this video!

The amount of effort put into this series is insane. Most people would have just done some nearly-good-enough computer animations. What a great thing to have made.

Thank you, Quint! This is nice and simple, perfect for those of us who get lost when you leave too much to intuition

I finally understand what the heck is a [basic dimension] and why it's confusing. 0.) You still use the +/- tolerance for the hole feature "for size". So, if hole is too large or too small it's rejected. Now, we continue to the issue of "position". 1.) Basic dimensions is really a "short cut" to move the horizontal and vertical datum reference edges/surfaces to a single coordinate point[x], [y]. 2.) It's a "shortcut for calculation" and presenting the tolerance zone "for the hole center=hole coordinate" as a simple "datum point" and the tolerance circle. 3.) However, you still need a pin gauges and you still need to measure the x and y from the gauge to the datum edges for x and y.

Really appreciate your effort put in to do this video. It gives a far better understanding on Position Tol

I like what you show at 12:27. That is exactly the virtual condition for an internal feature(hole). Big diameter(that encircles red and gray circles)=drill hole feature range Red diameter=diameter from tolerance of straightness, circularity, true position,...etc. This in effect "takes up hole space". Gray circle=virtual "pin gauge" that can fit. Thus: Diameter(virtual condition, gage pin diameter) = hole diameter(MMC) - diameter(of slop like straightness tol) The hole analogy is a little "counter-intuitive" than the scenario of external features, because it get's smaller. For the external feature it's more intuitive, which is virtual condition = diameter@mmc(largest) + diameter(of slop)

The best explanation I've found of GD&T. Great videos! Already subscribed! (Going to binge watch this series now)

Wow this really made virtual conditions hit home with me. Great video thank you

Sir, I'll take my hat off to salute you. This video is gold

Fantastic video! Thanks for taking the time to share your knowledge.

Nice work with the explanation dude, thanks a lot for that.

Thats some quality video. I'll definitely suggest to my juniors.

I have to do a training session on GD&T, specifically position and bonus tolerancing for people with no real background in it and I think this is going to be a big help. thanks for doing these!

If you can commit to a range as stated at min 9:07, what if variation makes it so you cannot commit to that range? You couldn't commit to a bullseye but some how magically you CAN commit to a range that assures being acceptable?

Great efforts 👍 thank you for video

With the addition of the tolerance zone (bull's eye) to get the size of the hole, you lose the press fit nature of your parts. Correct???

Awesome visual representation

Beautifully and clearly explained the concept Thank you for that

nice explaining, how do you find/ calculate the virtual circel ?

Really clear descriptions! Thanks!

really great explanation...no one can explain in such manner... thanks sir

really appreciate your work man

How do you calculate the "bullseye" size?

your explanation method is very easy and understandable, thank you ,

No math....Very well explained thank you..

there are many vieos about GD and T and i cant understand a sinlge of them, but i do understand after seeing this video, good job man

Hi, I have a question I have a sketch of a structure composed of three sheets metal, one of them is used as based, and the others are above of this one, separates for a specific distance, these two have an orifice plate with the same diameter and they are concentrics. When the welding is applied to the structure, then the assembly will have distortions, and the two orifices plates won’t be exactly concentrics. I would like to know if there exist a minimum tolerance when you're going to apply welding between hole to hole? For any assembly with the same specifications. Something like a table, a thumb rule, handbook or any document that specify some specific tolerance.

Clearly explained! Thank you!

Thank you sir .You have thoroughly explained the concept. I'm going to watch all of the videos 🙂.

If the pegs and holes hits their theoretical true positions (center center of bull-eyes), then will the fit be loose?

100 points for preparation, good video. Thank you sir

So if I am not mistaken, shaft diameter + position tolerance = virtual condition and Bore diameter - position tolerance = virtual condition? Also, I am assuming the hole and the peg shares the same position tolerance at the dead center location. Is it possible to have two different position tolerances? Finally, does the term virtual condition simply means that that there is a theoretical or invisible point where the peg and hole makes contact? Sorry Im self learning.

So the position tolerance within a GD&T control frame is from one side of the bulls-eye to the other? Or from the middle of the bulls-eye (theoretical dead center) to the outer edge of the bulls-eye?

Informative and well demonstrated.

I have used tolerances for límits and fits and I choose them base on what the book says now how do you decide the geométric tolerance for something? Is there like a rule or something?

Thank you very much for explaining in that manner.

Thank you for making this video!

you're the best

did you consider the size tolerance of the hole and post?

Thanks Teacher🙏

How does one come up with the position tolerance itself? I know there is limits and fits for holes and shafts are there charts one can use to come up with the position tolerance itself thanks.

Amazing video, very informative. Are you able to do one on one GD & T training through skype. I know it wouldnt be free but I really need to get a clear understanding of how GD & T operates. Thank you in advance

can someone can clarify why moving the hole relative to the peg makes the zone smaller?

clearly explained

That was nice explanation.

Good one...Thanks a Lot !

Thank you!!

Amazing!!

Can you please message me, i need to teach this to my juniors since this is not included in our syllabus. Some help will be appreciated. Thank you.

Thank you

super sir

thanks a lot

awesome

Thank u lot for Ur valuable work 👮

Thanks!

Later after half part was very confusing!

super

incase if it is with a numerical example it will be clear

18:33 Thats what she said.

Great

I hope the voice is not by Kevin Conroy's Bruce Wayne...😂

Are you colour blind?

Thank you