Sir i dont know you but i am very much thankful to you as during my graduation time no one taught us about levelling the way you taught amazing short and valuable videos thankyou sir for making such nice videos thanks alot once again
Simple, well expressed informative. Excellent. I wish more YT information videos were presented with this degree of focus on the message, rather than the presenter.
In the UK, we call the horizontal plane swept out by the instrument "the plane of collimation" and, of course, we don't use staves in foot/inch measurements but the normal metric "E" staff in which each "E" is 50mm high with 10mm thickness of the three arms of the "E". The next 50mm is three blocks of 10mm depth, spaced 10mm apart. The whole thing is then repeated on the next 100mm or 1/10 of a metre. Then the metre figure is marked and in the next metre, the "E"s are on the other side of staff face and so on.
@@jayadams35 no, I meant it as a joke! But we have found that long occupation static GPS obs give fantastic results when used in conjuction with a reliable geoid. In one case over 10km the GPS and leveling differed by only 6mm.
There is only one comment I have to make. When Todd is explaining rise/run, he suggests a layman should measure the distance between the two points. If the is measured along the ground, it would be the hypotenuse of the triangle. It must be the horizontal distance, aka the run. An example of this, if you have a 45 degree slope and measure the slope distance between two points, say 100 feet apart horizontally, you will measure 141 feet, the sine or cosine of 45 degrees along the slope. Other than this, this was a good video. Please note, that land surveyors measure the horizontal distances for land surveys, therefore, you could call them “flat-earthers”.
If you plot a plane that’s perfectly perpendicular to plumb on the shore of a 10 mile wide lake. How much will the center of the water deviate from the objectively level plane?
The center of the water will not deviate from the objectively level plane. This is because a plumb line, used to determine verticality, is perpendicular to the surface of the water. Therefore, a plane that is perfectly perpendicular to plumb will also be parallel to the surface of the water in the lake.
Calibrated, older style dumpy levels can be just as accurate in the field for measuring elevations as automatic levels. Automatic levels though take much of the human error out of the picture, as the compensator has a big working range that keeps the hz line of sight true. The part of your video where you're showing the circular bubble moving straight back and forth in and out of the bullseye is how you test the repeatability of a compensator to maintain a level line of sight. So, when an operator is using one of these instruments in the field, if the compensator is working and repeating as it should, typically anywhere within the bullseye is level enough. The compensator does have limits, but they are typically way outside the bullseye straight back and forth as again you showed on your video. So, the ease of use is a big reason why they are so accurate in the field as they eliminate much of the human error you would have with leveling error associated with traditional dumpy-type levels. The difference in accuracy is huge between a circular bubble on an automatic level and a higher precision vial on a dumpy level. But, the automatic level bubble only has to be so accurate as the all the leveling accuracy of the instrument is delivered through the function of the compensator. A dumpy level vial like the one in your video is like a 20-30 second bubble which of course translates to how level the instrument is in actually 4 directions, not just 2. And, of course this translates to the dumpy levels accuracy for measuring elevations. Both instruments are calibrated to repeat within a few arc seconds in a survey instrument repair shop's collimator. The automatic level though simply through it's design and ease of use delivers more consistent accuracy over the long run. It's still the gold standard for measuring elevations in the field at +/- 1/32" per 100 ft., with a calibrated instrument. Laser levels are more like +/- 1/8" per 100', and have some operator error introduced into the picture with how the operator goes about using the laser receiver.
Dear Tod Sir ... thank you & in the hindsight the Surveyors Association. TH-cam can't be better than this. A similar uploads on "Total Stations" would be helpful. GBU Sir !!.
So, level is horizontal. 3:12 3:37-so horizontal is gravity? Why not just say perpendicular to horizontal? 7:30- so if you can extend the horizontal line, at which point does one differentiate between elevation and earth curve?
1. One word can have different meanings in different contexts, in that case indeed, because he meant a fictional straight line at the level of that tripod. 2. Because in that context it's synonymous, horizontal at coordinates where that guy was standing, or any coordinates is perpendicular to the direction of gravity in that place. 3. There isn't a magical border up to which it doesn't differentiate and then it drops drastically, it does it continuously at very small rate, so it can be ignored until you're surveing terrain for few kilometers long bridge or something, for example the joined effect of refraction and curvature at the distance of 400m isn't greater than 1cm.
You don't calculate angles with a theodolite, you measure them, both horizontal and vertical. That is what a theodolite is for. You can then do the calculations back in the office with a computer, pocket calculator, slide rule or book of log tables using the angles you have measured with the theodolite.
Because with this method you would have to run with that level from place to place and do that insane ammount of times at bigger distances to cover it, when with laser level you can do that with one measurement.
Nothing is 100% perfect in this world but errors must not be fatal even when they are accomulated yet again all professional errors must be field specific depending on what you are measuring and for that purpose (negligible error).
Would you kindly do a video of measuring the curvature of the Earth, to put the flat Earth theory to rest.. I posit that could be done with two theodolites. The second, place at a distance acceptable for the optics and accuracy, would have it's orifice centered by the first theodolite. The second shooting back at the first should strike above the orifice of the first by double the calculated curvature, which is 1.5 thousandths of an inch per linear foot distance. The curvature would be quite easy to see as this method would accurately double the measurement. Thank you from New Zealand.
@@smith-mundtnews1406 If you define "level" as perpendicular to the direction on gravitational pull, then you're absolutely right. The "must be contained" part is absolutely meaningless, it must be contained to not do what? Disappear from the existence? I can pour out a glass of water on my floor right now and it's still here, so I don't really know what you're trying to communicate here. Just blindly repeating the same meaningless mantra all flerfs say, for "free thinkers" who aren't "sheep" you surely like to say the same exact things 🤔
You say at the start that measuring the horizontal distance is "easy" and one can use a tape measure. How is it easy to measure the horizontal distance, of say, 100m with a tape measure? I would say that was impossible.
Sir i dont know you but i am very much thankful to you as during my graduation time no one taught us about levelling the way you taught amazing short and valuable videos thankyou sir for making such nice videos thanks alot once again
Find here
I leveled for 6 weeks straight for control on a project in Denver in the middle of winter. Good stuff.
Good see more here
Thanks for your responses for our survey..
From Iraq 🇮🇶🇮🇶🙏🖤
Simple, well expressed informative. Excellent. I wish more YT information videos were presented with this degree of focus on the message, rather than the presenter.
This is the best video on explaining this topic
Wow, been a long time since I thought about a split bubble level. Thanks for the reminder! I love vintage instruments!
Excellent information. You have that great story telling, book reading, documentary narrating voice!
Yes dear see here more
In the UK, we call the horizontal plane swept out by the instrument "the plane of collimation" and, of course, we don't use staves in foot/inch measurements but the normal metric "E" staff in which each "E" is 50mm high with 10mm thickness of the three arms of the "E". The next 50mm is three blocks of 10mm depth, spaced 10mm apart. The whole thing is then repeated on the next 100mm or 1/10 of a metre. Then the metre figure is marked and in the next metre, the "E"s are on the other side of staff face and so on.
Great explanations for a newbie like myself! Looking forward to more videos explaining currently how surveying is done!!! 👍
Good see more here
You are so much better than my lecturer, thank you so much
Did I just become a surveyor? This video was great, thank you!
Long distance leveling is a lot like banging your head against a wall. It feels so good when you stop! Great video thanks👍🇿🇦
You mean levelling is not efficient over very long distances?
@@jayadams35 no, I meant it as a joke! But we have found that long occupation static GPS obs give fantastic results when used in conjuction with a reliable geoid. In one case over 10km the GPS and leveling differed by only 6mm.
There is only one comment I have to make. When Todd is explaining rise/run, he suggests a layman should measure the distance between the two points. If the is measured along the ground, it would be the hypotenuse of the triangle. It must be the horizontal distance, aka the run. An example of this, if you have a 45 degree slope and measure the slope distance between two points, say 100 feet apart horizontally, you will measure 141 feet, the sine or cosine of 45 degrees along the slope. Other than this, this was a good video.
Please note, that land surveyors measure the horizontal distances for land surveys, therefore, you could call them “flat-earthers”.
stevebrannon69 2:28
Thank you for a very informative video! You have a talent for teaching.
Welcome
Ok
If you plot a plane that’s perfectly perpendicular to plumb on the shore of a 10 mile wide lake. How much will the center of the water deviate from the objectively level plane?
The center of the water will not deviate from the objectively level plane. This is because a plumb line, used to determine verticality, is perpendicular to the surface of the water. Therefore, a plane that is perfectly perpendicular to plumb will also be parallel to the surface of the water in the lake.
@@miked7703 Therefore if earth is 70% water it is,by definition, 70% flat and level.
Great video, very well explained! Thanks for putting this together...thanks from Canada...
Calibrated, older style dumpy levels can be just as accurate in the field for measuring elevations as automatic levels. Automatic levels though take much of the human error out of the picture, as the compensator has a big working range that keeps the hz line of sight true. The part of your video where you're showing the circular bubble moving straight back and forth in and out of the bullseye is how you test the repeatability of a compensator to maintain a level line of sight. So, when an operator is using one of these instruments in the field, if the compensator is working and repeating as it should, typically anywhere within the bullseye is level enough. The compensator does have limits, but they are typically way outside the bullseye straight back and forth as again you showed on your video. So, the ease of use is a big reason why they are so accurate in the field as they eliminate much of the human error you would have with leveling error associated with traditional dumpy-type levels. The difference in accuracy is huge between a circular bubble on an automatic level and a higher precision vial on a dumpy level. But, the automatic level bubble only has to be so accurate as the all the leveling accuracy of the instrument is delivered through the function of the compensator. A dumpy level vial like the one in your video is like a 20-30 second bubble which of course translates to how level the instrument is in actually 4 directions, not just 2. And, of course this translates to the dumpy levels accuracy for measuring elevations. Both instruments are calibrated to repeat within a few arc seconds in a survey instrument repair shop's collimator. The automatic level though simply through it's design and ease of use delivers more consistent accuracy over the long run. It's still the gold standard for measuring elevations in the field at +/- 1/32" per 100 ft., with a calibrated instrument. Laser levels are more like +/- 1/8" per 100', and have some operator error introduced into the picture with how the operator goes about using the laser receiver.
Dear Tod Sir ... thank you & in the hindsight the Surveyors Association. TH-cam can't be better than this. A similar uploads on "Total Stations" would be helpful. GBU Sir !!.
It was a good one for a beginner and easy to understand,
Thanks Mr. Tod. It's very helpful.
Thanks for the wonderful, instructional video
Highly informative video. thank you for sharing
Very well made video with a ton of useful information thank you.
1:29 More specifically it is a spirit level.
So, level is horizontal. 3:12
3:37-so horizontal is gravity? Why not just say perpendicular to horizontal?
7:30- so if you can extend the horizontal line, at which point does one differentiate between elevation and earth curve?
1. One word can have different meanings in different contexts, in that case indeed, because he meant a fictional straight line at the level of that tripod.
2. Because in that context it's synonymous, horizontal at coordinates where that guy was standing, or any coordinates is perpendicular to the direction of gravity in that place.
3. There isn't a magical border up to which it doesn't differentiate and then it drops drastically, it does it continuously at very small rate, so it can be ignored until you're surveing terrain for few kilometers long bridge or something, for example the joined effect of refraction and curvature at the distance of 400m isn't greater than 1cm.
Very good information sir
i have to admit, humans are quite ingenious, in creating these complex things, arent we?
Very informative video. Thank you!
Any thoughts of making how to calculate angles with theodolite?
You don't calculate angles with a theodolite, you measure them, both horizontal and vertical. That is what a theodolite is for. You can then do the calculations back in the office with a computer, pocket calculator, slide rule or book of log tables using the angles you have measured with the theodolite.
Awesome explanation. I was always curious and you were able to explain it very well. Thanks.
Good learn more here
Would it be possible to streamline on the screen the explanation,, for the sake of easy understanding?
This is good I'm a student at IUEA in Kampala Uganda but we miss these instruments I would prefer in my Field I use a leather theodolilte.
Great job. Thanks for posting.
Good find more here
Thank you for these supurb set if videos.
Regards.
hi working with that level is good or
new horizontal leser level with remod
good demonstration there sir
Hi Very good explanation...............
Great video on surveying.
Thank you for your time sir
1:29 *insert Rick and Morty joke here
Great, Thank you so much Tod.
thanks very informative god bless you
Really super 👌
only joking. loved the vid. reminded me of my college days in 1986, when i studies civil engineering.
Thanks very much
So how long you get your certificate or Diploma
Surveying produces a level line
Keywords: Theodolite or transit
Very nice video. Well done!
great channel
thanks dear sir for your best information
Nice tutorial.
I like to share my thoughts ... who knows who can add to my experience about the world of construction out there
Very Informative! Thank you.
That is so interesting, very helpful
It is dear see here more
thank you Sr for the video.
how to convert different higher and lower level reading to one station?
This Is very informal and helping me thank you. Cant help to say that you sound like Ron from Parks and Rec Netflix series lol. Good work
Watch more here
The Earth's curvature is never figured in so why do people think it's curvatured?
Thank you for the information.. can u make a video about total stations,like transfering data to usb then to excel
Very informative, thanks
2:55- why is that?
Because with this method you would have to run with that level from place to place and do that insane ammount of times at bigger distances to cover it, when with laser level you can do that with one measurement.
Thank you for the good information :)
It's k 😁
How to book & check precise leveling
Hey can i ask u a question
What is name of this tool?
Simply level
thank you
Thank you po
Now tell us how you figure out the Earth's curvature
Find here
Nothing is 100% perfect in this world but errors must not be fatal even when they are accomulated yet again all professional errors must be field specific depending on what you are measuring and for that purpose (negligible error).
Thank you!
TQ sharing
Good video.
well teaching
Dude's barber obviously use a laser level to provide a razor sharp haircut!
super.thanks
Cool video ❤❤
wonderfull
Expertise your knowledge of engineering here
i think he's an iphone guy...... how i knew??...
HE'S GOT THE NOTCH...
Really dear
Thanks very good
I love to join this firm, give me a chance
Thanks!
Why 848.86?
Or 846.86 on the Hi
0:15 That one beard hair...
Great
Nice to hear someone explain this without Lamb Vindaloo in their mouth.
ăn tết vui vẻ nha
Would you kindly do a video of measuring the curvature of the Earth, to put the flat Earth theory to rest.. I posit that could be done with two theodolites. The second, place at a distance acceptable for the optics and accuracy, would have it's orifice centered by the first theodolite. The second shooting back at the first should strike above the orifice of the first by double the calculated curvature, which is 1.5 thousandths of an inch per linear foot distance. The curvature would be quite easy to see as this method would accurately double the measurement. Thank you from New Zealand.
The Earth is flat water don't lie. People do
Flat the earth is...
Water is level and must be contained.
...is the dumbest hoax on the internet.
@@smith-mundtnews1406 If you define "level" as perpendicular to the direction on gravitational pull, then you're absolutely right. The "must be contained" part is absolutely meaningless, it must be contained to not do what? Disappear from the existence? I can pour out a glass of water on my floor right now and it's still here, so I don't really know what you're trying to communicate here. Just blindly repeating the same meaningless mantra all flerfs say, for "free thinkers" who aren't "sheep" you surely like to say the same exact things 🤔
You say at the start that measuring the horizontal distance is "easy" and one can use a tape measure. How is it easy to measure the horizontal distance, of say, 100m with a tape measure? I would say that was impossible.
You also say at 7:20 that you create a "horizontal or level line", well "level" is not a line but a curve, so they are not the same.
Haha its rumpus. What are you doing here?
I'm looking for a surveyor to answer some questions although doesn't look like this one replies 😂 🤣
@@Rachie-nj3oi I will be able to answer any questions you have!
boring
Thank you sir
Thank you for a good information :)
Thank you
Thank you