I'm really glad it helped you. Thank you for leaving a note, it is always nice to hear this site is useful. Good luck with engineering it is great career!
This may also help people .. 1.0 inch = one inch 0.1 inch = one-tenth of an inch 0.01 inch = one-hundredth of an inch 0.001 inch = one-thousandth of an inch much love..
Thanks for the video, I'm a trainee engineer and they showed us how to use verniers in mm, but they threw us a curve ball today and now we've got an assessment in inches, Now after watching this I can go in tomorrow morning and be alot more confident as I was having difficulty all day with this. cheers !
Because the zero on the movable scale is between two lines on the main scale you need to move your eyes down the movable scale until you find a line that lines up with any line on the main scale. You add the number of lines on the movable scale up to and including the line on the movable scale that lines up with the main scale in this example it is .017", this is added to the measurement on the main scale (before the zero). Thanks for your kind words. Good luck!
Tony, it is replies like yours that I really appreciate. It means a lot to me to know the video has helped someone. Thank you for taking the time to share.
@CE750 Old school yeah I guess I'm a bit dated (LOL) it is one of my favorite scales as there is not the potential error of other verniers. Thanks for the note.
Most VERY large calipers are still vernier. The vernier type with the 50 scale is by far the best way to go. If you ever get a chance to see the 25 and 50 side by side, you will wonder why they even make the 25 scale type.
Hi again, the answer is the same as with the metric. In this case it is actually the second line after the 15 that lines up. Each one of these lines is .001" or .017" in total. Added to the main scale reading of 1.150" +.017" gives you a reading of 1.167". It is a bit different to read compared to the metric vernier. Thanks for your question. Enjoy your vernier reading.
@@machiningmoments oh thanks for your explain :D,so if the situation like got two lines up line ,we always choose the second one?or got other solution to get the answer ?like i saw someone comment at metric video below, the formula like this "Distance of the main scale minus the distance of the vernier scale. 60 - (31*0.98) = 29.62 mm."
thx for your hard work but i didnt understand from 2:6 to 2:13 so if you have time can you write a note for me about it by replying to my comment ...........if you have time and again thx
I'm really glad it helped you. Thank you for leaving a note, it is always nice to hear this site is useful. Good luck with engineering it is great career!
This may also help people ..
1.0 inch = one inch
0.1 inch = one-tenth of an inch
0.01 inch = one-hundredth of an inch
0.001 inch = one-thousandth of an inch
much love..
Thanks for this.
one of the few videos that explains inperial readings and *actually* explains it! Many thanks!
I'm glad it was helpful. Thanks for watching and leaving a message!
Thanks for the video, I'm a trainee engineer and they showed us how to use verniers in mm, but they threw us a curve ball today and now we've got an assessment in inches, Now after watching this I can go in tomorrow morning and be alot more confident as I was having difficulty all day with this. cheers !
thanks lot
Because the zero on the movable scale is between two lines on the main scale you need to move your eyes down the movable scale until you find a line that lines up with any line on the main scale. You add the number of lines on the movable scale up to and including the line on the movable scale that lines up with the main scale in this example it is .017", this is added to the measurement on the main scale (before the zero). Thanks for your kind words. Good luck!
very nice... I just got my first Vernier and I'm loving how old school it is.
Thank you, I normally use metric but I am building some from an imperial plan and this has been very helpful
I'm glad it was helpful. Thanks for watching!
best video explaining vernier reading, been struggling to find one. thank you
Thank you for your kind words. I'm glad you found it helpful.
I got spoiled using digital calipers . Thanks for a clear and well explained refresher course . Much appreciated .
Yes, the digital makes life easy. Glad it helped.
Thank you for sharing this it helps a lot in understanding the technology of mechanical vernier readings.
Glad it was helpful, thank you for saying so.
Tony, it is replies like yours that I really appreciate. It means a lot to me to know the video has helped someone. Thank you for taking the time to share.
@CE750 Old school yeah I guess I'm a bit dated (LOL) it is one of my favorite scales as there is not the potential error of other verniers. Thanks for the note.
My pleasure, thanks for your note.
Most VERY large calipers are still vernier. The vernier type with the 50 scale is by far the best way to go. If you ever get a chance to see the 25 and 50 side by side, you will wonder why they even make the 25 scale type.
morgan4xl I agree, I like the 50!
Agreed! Vernier was brillant in my books.
very good explanation. easy to understand and good view of the scales. great job !
Galwegan Thanks, glad it was helpful!
Great video and great information
I'm glad you enjoyed it. Thank you for your comment and watching it.
Thanks. So cool. I just couldn't explain this over the phone so sent your link and job done.
Very helpful! Many thanks for sharing!
It was my pleasure, my hope is these videos are useful. Thanks for watching and making the time to leave a message.
Thank you for valuable information...
@@ftrsajay7451 My pleasure, thank you for watching and leaving a message.
thanks man !! you really helped me out !
Amazing vid, thank!
Glad you liked it. Thanks for watching and leaving a post.
a big help for me.thanks
+Dondon Rito I'm glad it helped, thanks for taking the time to leave a message.
thank you so much from the turkey
Thanks for watching and posting.
Nicely explained. thanks
+Albert Joseph Thanks for the comment and watching!
Great video Thank you.
Thank You!
I believe it was a Frenchman in the 1800's named Vernier.
Awesome man...
Glad it helped!
Holy shit thanks souch I have quiz for this
@@footylibrary hope you did well. Thanks for watching.
thanks man
Thanks alot
My pleasure, thank you for watching.
Thank you.
Thank you for watching!
AWESOME thank-you
Glad it helped!
Hi sir is me again XD,its really same as the question on Metric,i still saw it the lines up it before the 0.17,why not be 0.15?
Hi again, the answer is the same as with the metric. In this case it is actually the second line after the 15 that lines up. Each one of these lines is .001" or .017" in total. Added to the main scale reading of 1.150" +.017" gives you a reading of 1.167". It is a bit different to read compared to the metric vernier. Thanks for your question. Enjoy your vernier reading.
@@machiningmoments oh thanks for your explain :D,so if the situation like got two lines up line ,we always choose the second one?or got other solution to get the answer ?like i saw someone comment at metric video below, the formula like this
"Distance of the main scale minus the distance of the vernier scale.
60 - (31*0.98) = 29.62 mm."
Guess it pays to do your research. :) good job!
thx for your hard work but i didnt understand from 2:6 to 2:13 so if you have time can you write a note for me about it by replying to my comment ...........if you have time and again thx
tks a lot :)
My pleasure.
Come on who uses inches?
Or imperial for that matter
Most of North America?
Having an understanding of both can be beneficial .. have a nice day..
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