Carpentry Trick -- Easily Divide Any Circle Into Any Number of Equal Sections

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  • เผยแพร่เมื่อ 27 พ.ย. 2024

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  • @misterdubity3073
    @misterdubity3073 ปีที่แล้ว +110

    Diameter * sin(180 degrees / 7 sections). Sin(180/7) = 0.43388. Just make sure you're doing degrees and not radians. (if radians, you'd take sin(pi/7)). To convert .9051 to 32nds, just multiply .9051 by 32 and round to the nearest whole number. Everyone's phone has a calculator. In 32nds, it comes out to 3 and 28.9585/32nds; slightly less than 29/32 which may be why 3 and 29/32 made it slightly too long

    • @mickgoodbe235
      @mickgoodbe235 ปีที่แล้ว +4

      Brilliant info - thanks! 👍🇬🇧

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว +12

      Why not use a decimal rule? Saves the conversion step, and the loss of accuracy. If you have a digital caliper, you already have one, and it is more accurate than a tape measure.
      What possible reason is there to use fractions?

    • @johnnyragadoo2414
      @johnnyragadoo2414 ปีที่แล้ว +5

      @@TensquaremetreworkshopFractions, decimals - different ways to express values.
      Or are they? The sine of an angle really isn’t a number, it’s the proportion of the side opposite an angle to the length of the hypotenuse of a right triangle including that angle (or the angle’s compliment). Trig values like sine, cosines, and tangent are ratios, not really simple values. Just sayin’, it’s hard to get away from fractions and ratios in this world.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว +5

      @@johnnyragadoo2414 Yes, fractions and decimals are different ways to express values. But if the value is already a decimal (as, clearly, in this case) why convert it to a fraction? There will often be a loss of accuracy, and it is a step not needed.
      A ratio IS a number. What else could it be? It is a dimensionless number, but still a number. And your calculator will give it to you as a decimal.
      Not hard to get away from fractions at all. Especially if the calculation gives you a decimal number to start with.
      When people talk of fractions, they usually are referring to binary fractions (where the divisor is a power of 2). As values get smaller (or more accurate) it gets unwieldy- not met anyone who works in 128ths, never mind 256ths. Machinists move to thou and tenths. So, decimal. And they are often mixed with fractional dimensions. Errors waiting to happen.
      Why not use divisors that are a power of 10? (i.e. decimal...)
      I repeat my question- What possible reason is there to use fractions for this task?

    • @gowdsake7103
      @gowdsake7103 ปีที่แล้ว +1

      Huh maybe you get that

  • @jackdotzman2908
    @jackdotzman2908 11 หลายเดือนก่อน +6

    I’m 85 years old, love working in my shop building anything. I don’t know what I enjoy more the math for calculating angles, dividing circles, like what you did, or trying to figure out spacing for a box joint/dove tail project. Then building the jigs and fixtures to make what ever it is the old brain comes up with this week. Still have’nt figures out what is more fun, the morning bowel movement, a cup of coffee or doing the math and solving building problems. Excellent video, thank you for taking the time. From. Missouri.

  • @billmacrae1924
    @billmacrae1924 ปีที่แล้ว +12

    You can do this without any calculations, charts, measurement numbers or fancy technical terms like "chord" that don't even come up with the correct solution. Just set your compass to what you think it might be and walk it around the circle. Re-set your compass by about 1/7 of the "gap" and try again. You will have it spot on in a few tries.

    • @edeaglehouse2221
      @edeaglehouse2221 11 หลายเดือนก่อน +3

      Using the chord length is a perfect solution. Literally. It's the lack of precision of the chart and rounding to whole units that cause the error. But the old old school method is to estimate and adjust until you get it close enough.

    • @franklunt8975
      @franklunt8975 11 หลายเดือนก่อน

      Estimate and adjust is OK for a low number of sectors but it gets really messy and laborious if you need say 30 sectors. lots of rubbing out and re-doing. I'll stick to calculators thanks.

    • @pk2712
      @pk2712 9 หลายเดือนก่อน

      Calculation is the best way to find the cord length .After that fine adjustments , are probably necessary to make it work out exactly. Listen to the man in the video . He knows what he is doing . If you don't know how to do the calculation , use the table. Either way , you can't go wrong with what is done in the video . For a small circle , it may be better to draw a large circle with the same center as the small circle . Divide the large circle into the desired number of equal cords . Then draw lines from the center of the circle to the outer circle divisions. The intersections of these lines with the smaller circle will divide the small circle exactly . @@franklunt8975

    • @jtischCB
      @jtischCB 3 หลายเดือนก่อน

      I like it your way, Bill!

  • @mauricelevy9027
    @mauricelevy9027 11 หลายเดือนก่อน +10

    Well Herrick, it seems that I'm about the only one that would want Your system as they all have a "better one" ? So ,at least one simple soul has benefitted from Your kind video .Thank You.

    • @pk2712
      @pk2712 9 หลายเดือนก่อน

      I agree with you . There is nothing wrong with Herrick's method .

  • @wayneyadams
    @wayneyadams ปีที่แล้ว +27

    4:48 You don't need an online conversion. Just multiply 0.9051 by 32. 0.9051 x 32 = 28.96 = 29, your measurement is 29/32.

    • @gowdsake7103
      @gowdsake7103 ปีที่แล้ว

      Ummm mm really

    • @bcase5328
      @bcase5328 ปีที่แล้ว +1

      You don't need an online conversion. Just measure a circle in metric measure for the circle diameter; Diameter * Table number = Product/number of sections in same metric units as the metric measure of the circle's diameter.
      Example; if you wanted 45 sections and your diameter was 2.000000 m, the chord would be 3.1022 cm, (or one degree would be a chord of about 3.87775 mm). [Please check my calculations.]

    • @wayneyadams
      @wayneyadams ปีที่แล้ว +1

      @@bcase5328 You missed the point. We don't use metric measurements in the United States and that is the audience he is speaking to, we who use the Imperial system measurements of inches and fractions of an inch.

    • @zackh1798
      @zackh1798 5 หลายเดือนก่อน

      Yea if you did it this way you would have known 29 was rounded up so like a smidgen less than your perfect 29/32 mark you made the first time.

  • @capnchip
    @capnchip 11 หลายเดือนก่อน +2

    I don't care what any one else has said, this is really helpful! If it doesn't quite turn out right, make an adjustment, just like he did. Gang, work in thge real world, MAKE it work!

  • @timothyjones74
    @timothyjones74 11 หลายเดือนก่อน +4

    Retired carpenter (76). Great explanation. Mostly remodeled. Learned many “tricks of the trade” from other carpenters including my Dad. Hated running into the occasional hack “can’t see it from my house types (fired a few in my time). Thanks for the presentation. You were “flexible, but not limp” as my Dad used to say. 😂

  • @geoffphil
    @geoffphil ปีที่แล้ว +6

    You could use a protractor and just measure angles: 360 / n, where n is the number of divisions.

  • @WideCuriosity
    @WideCuriosity ปีที่แล้ว +23

    Interesting, thanks; but the secret is the prepared table so not so much a trick as having the data. By the way, inches × inches gives you inches² rather than inches; so the 0.4339 has to be simply a multiplier rather than a length in inches. I've not tried it but I suspect it doesn't matter which measuring system you use as long as you are consistent, so no conversion needed.
    Edit: Having now read other comments I see the above point has already been made. Ah well, I took the time to write it, so I'm leaving it 😉

    • @larswilms8275
      @larswilms8275 11 หลายเดือนก่อน +1

      I guess technically the unit of the conversion factor is "per chord" since the calculation gives the length per chord as the answer.

  • @SpectrumOfChange
    @SpectrumOfChange 11 หลายเดือนก่อน +5

    Thanks for keeping in the video the adjustments made. So many of these videos edit those parts out, leaving the guys out in the real world wondering what they're doing wrong.

  • @NPC2_4_U
    @NPC2_4_U 10 หลายเดือนก่อน +1

    Great trick. I froze the video at 3:15, went to full screen and took a screen shot. Now I have it printed out and also saved in my 'Repairs' file.

  • @TedHopp
    @TedHopp ปีที่แล้ว +10

    When counting off 32nds, sometimes it's easier to go backwards. So instead of counting 29 of them from the 3" mark, count back 3/32 from the 4" mark. (That works because 32/32 is a full inch.)
    Also, you don't always have to count from an inch mark. For instance, you can find, say, 3 19/32 by counting up 3/32 from 3 1/2" since 1/2"=16/32".

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว

      counting off 32nds is definitely going backwards. The calculator gives decimal- measure in decimal.

    • @TedHopp
      @TedHopp ปีที่แล้ว

      @@Tensquaremetreworkshop Some calculators can display results in fractions.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว +1

      @@TedHopp Yep, what a misuse of technology… Most calculators work to 8 significant figures, but let us just throw away that precision.

    • @TedHopp
      @TedHopp 10 หลายเดือนก่อน

      @@Tensquaremetreworkshop You're going to be throwing away that resolution anyway as soon as you use a ruler or tap measure. Thinking 8 digits of resolution means anything in woodworking is ludicrous.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop 10 หลายเดือนก่อน

      @@TedHopp I am not suggesting that. If a calculator uses fractions, what divisor does it choose? Sets the accuracy. With decimal you take the number of significant digits you want- you choose.

  • @bobcook9030
    @bobcook9030 11 หลายเดือนก่อน +23

    A simpler method I've used is to divide the 360 degree circle by number of segments wanted to get the angle of each segment. Mark a line from ctr. to o.d.. Using a protractor set to this angle, mark a second line from ctr. to o.d.. You can then set a compass across these intersecting points. Mark the other points with compass.

    • @edeaglehouse2221
      @edeaglehouse2221 11 หลายเดือนก่อน

      That's a good alternative. Thanks!

    • @TBlanktim
      @TBlanktim 11 หลายเดือนก่อน +1

      That is just what I was thinking. I've laid out building foundations using this method. You don't need tables or charts to refer to.

    • @ludodg
      @ludodg 11 หลายเดือนก่อน

      I agree.

    • @djpatraw
      @djpatraw 11 หลายเดือนก่อน

      That's the way I learned as a sheetmetal worker apprentice. It doesn't matter the size of the circle. Just divide the segments into 360° to get your angle from center. Then for accuracy walk it off on the circumference with dividers or compas

    • @vicbauwens
      @vicbauwens 11 หลายเดือนก่อน

      This video is not about dividing a circle in segments, it’s mainly about converting decimals to fractions to deal with imperial units.
      The cord of any angle is r*2*sin(180/n)
      No tables, no websites, just one formula.

  • @americo2958
    @americo2958 ปีที่แล้ว +7

    Good video, but just wanted to point out that when you convert .9051 to 32ths you have to round up to get 29/32 the actual number is something like 28.9 something and so that leads to that discrepancy , you have to take that rounding error into account

  • @davevaness4172
    @davevaness4172 10 หลายเดือนก่อน +2

    Very decent that you mentioned your source. You mother raised you right!

  • @stephendalby836
    @stephendalby836 ปีที่แล้ว +1

    Thank god I use metric.
    I love your unspoken rule of thumb. “Try maths and if that doesn’t work, just guess”.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว

      It is decimal that makes it easier. Works just as easily in Imperial decimal. Converting to fractions was entirely unnecessary.

    • @seanmahoney1077
      @seanmahoney1077 11 หลายเดือนก่อน

      yeah....sit back and have a piece of pi.

  • @NebulaM57
    @NebulaM57 ปีที่แล้ว +6

    OMG! "I'm an American, I'm working in inches", Thank you SO much!! Nothing at all wrong with Metric. But, if I want to know, I'll look it up. I wish all American TH-camrs would just follow this philosophy. When I watch European videos, I don't expect them to use Imperial. And when I care enough, I do the conversions. And it usually means more to me then, I remember it better.
    Sorry, I just had to rant. This was a cool video, great explanation and well done. Thank you for sharing!

    • @thatcrazyguy1971
      @thatcrazyguy1971 11 หลายเดือนก่อน +3

      That comment cracked me up. That is such… uh… an American comment 😂

  • @pk2712
    @pk2712 9 หลายเดือนก่อน +2

    I love that compass that you are using . I have tried to do this circle dividing operation , and I can tell you that you definitely need a compass with that fine an adjustment . You will struggle otherwise . Even if you are only dividing by 5 . The higher the number of equal sections , the more difficult it will become --- I am pretty sure .

  • @berndheiden7630
    @berndheiden7630 54 นาทีที่ผ่านมา

    For a German (77) it‘s always very entertaining to watch you struggle with fractions. Especially when you have to use decimals in between! Like thousands of an inch when it has to be any more precise than a RHPHW.

  • @ronslaughterandalice1018
    @ronslaughterandalice1018 ปีที่แล้ว +6

    You should be able to find that chart in the Machinery Handbook as well. This method is great on a flat plane surface where you can use dividers but not so easy with a part that has a bore and can't establish a center point. But this is a keeper piece of information and appreciated.

    • @davidbroadfoot1864
      @davidbroadfoot1864 ปีที่แล้ว

      What do you mean? This method does not require you to locate the centre.

    • @sgtokie
      @sgtokie 11 หลายเดือนก่อน +1

      the chords lengths are also in the Machinery's handbook pocket companion as well as in the spiral bound machinist's ready reference book.

  • @sethwarner2540
    @sethwarner2540 9 หลายเดือนก่อน

    Simple and common sense, taken one step at a time! Thank you for this service! Ive bookmarked this for future use!

  • @reidflemingworldstoughestm1394
    @reidflemingworldstoughestm1394 ปีที่แล้ว +6

    You want to know the fraction conversion to a decimal value, just multiply the decimal by the smallest marks on your ruler.
    .9051 inches in 16ths of an inch is
    .9051×16=14.4816
    The result is the number of sixteenths of an inch. Rounded up to 14.5 sixteens, you got 7/8 +

  • @robertmawby3021
    @robertmawby3021 11 หลายเดือนก่อน +4

    Wow, this is such an incredible faff! It’s time America moved to metric, you won’t believe how much simpler it is. I grew up in England using imperial measurements but we changed when I left school!

    • @mauricelevy9027
      @mauricelevy9027 11 หลายเดือนก่อน +1

      Well at nearly 90 a tenth of "thou" is easier for me to use than decimal points for Metric .It was once remarked that the metric system was devised as being easier to use by the majority of Romans because they had 10 fingers .

    • @pauljenkinson8798
      @pauljenkinson8798 10 หลายเดือนก่อน

      I started my trade apprenticeship in Imperial then later moved to a country that uses the Metric System. I find being fluent with both is a huge benefit. I have another problem solving tool and approach the Metric only guys don't have. In most cases the Metric system is easier but not in all. Being able to use fractions and 10ths makes solving a lot of layout problem that demands accurate division of spaces so much easier or demands numbers results than aren't fractions of mm. But then again you wouldn't have a clue about what I'm talking about since you can't add, subtract, multiply or divide using inches,, what shame you criticize a language you know nothing about,, 😢😢

  • @mikethespike7579
    @mikethespike7579 ปีที่แล้ว +5

    When I was still working as a sheet metal worker, part of my job was dividing circles into any number of sections. But I used a different method without mathematics or tables that one of my teachers had shown me. All that was needed was a compass and a ruler. That was a very long time ago and I doubt I could now recall how it was done. But after a lifetime in engineering I'd anyway solve the problem instead with a bit of trigonometry and a calculator. BTW, I found metric for these kinds of problems easier to use than inches, no conversion from decimal to fractions needed.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว +1

      No need in Imperial either- just use decimal. Machinists work in thou- which are decimal. If you have a measuring caliper, it should offer decimal operation.

    • @mikethespike7579
      @mikethespike7579 ปีที่แล้ว

      @@Tensquaremetreworkshop True. I've never understood why carpenters use fractions of inches. It was the same for me when I was doing my sheet metal worker apprenticeship.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว

      @@mikethespike7579 Even worse is that drills and cutters are in fractional sizes. In Imperial, that is. Metric is, of course, decimal.

    • @berndheiden7630
      @berndheiden7630 10 หลายเดือนก่อน

      Doing anything in fractions is simply not as simple as doing it in a decimal system. And NASA has lost a million $ satellite because at one point somebody botched up the conversion from decimal to fractions. Just look at a set of drills. In decimal you can sort 20 sizes with .5 mm real quick. Just call out the first 20 sizes in fractions once. And then convert to decimal!

    • @steveh8724
      @steveh8724 7 หลายเดือนก่อน

      @@mikethespike7579 It works for "carpentry" because precision beyond 1/16" is rarely required. That said, I wish we had just gone metric back in the 1070s. Life would be easier and cheaper (one set of drills, sockets, etc.)! But it is what it is.

  • @farrier2708
    @farrier2708 ปีที่แล้ว +4

    An excellent vid' but I do have a couple of minor points.
    Firstly: It doesn't matter what system of measurement you use; imperial , metric, cubits or matchsticks; the numbers remain the same. Just don't mix the units.
    Secondly: Marking out from the start point and marking to the halfway point, then working in the opposite direction from the start point to the halfway point, minimises any error.
    Finally: Dividing 360 by the number of segments will give the subtended angle in degrees, between segments. Using this angle, the radius of the circle and any web Chord Calculator will give the length of chord. It can also be calculated using the formula :- Length of Chord = 2*Radius*Sin(Subtended Angle/2).
    Mind you! Having said that, tables are a much the easier way. 🤓👍

    • @nickwhite2996
      @nickwhite2996 ปีที่แล้ว

      It's only easy if you have that table!

    • @farrier2708
      @farrier2708 ปีที่แล้ว

      @@nickwhite2996 Very true!

    • @johnmcdonald9977
      @johnmcdonald9977 ปีที่แล้ว

      My, oh, my! Ok, I give in! It doesn't matter which system you use. My preference is metric, No offence intended to anyone!

    • @larswilms8275
      @larswilms8275 11 หลายเดือนก่อน

      @@johnmcdonald9977 Metric has the added advantage that the fourth step is completely unnecessary. Only the imperial/ customary unit system works with fractions as a definitive measurement, most of the time. there are rulers that have inches divided in tenths and hundredths, but these are specialty items.

  • @nbandpinportugal
    @nbandpinportugal 11 หลายเดือนก่อน +1

    It would be a lot quicker to guess the cord length and just adjust the compass ( as you did ) until you get 7 equal segments or whatever number you are aiming for.

  • @herrickkimball
    @herrickkimball  ปีที่แล้ว +3

    This technique is demonstrated here on a relatively small circle, which could be easily "stepped off" using an estimated cord distance on dividers, then readjusted a few times to get it right on. But it gets more complicated and time consuming with a larger circle and/or more sections. With that in mind, the simple math equation and multiplier number chart shown in this video will save you time getting the needed cord length. You may still need to adjust your caliper (or beam compass for larger circles) to get it right on in your "real world" application, but any adjustment should be minimal and much less frustrating. I appreciate all the comments here from people who are much smarter than me. 👍

    • @kensmith5694
      @kensmith5694 ปีที่แล้ว

      How about someone dumber than you? Am I allowed to comment?
      BTW: Out in a field, you can do a rope for the radius of the circle, peg in the ground and another rope for the cord distance and two people. You can quite quickly mark out a large circle this way. This is handy if your town needs some tourism because you can make a "crop circle" with a funny pattern to get some reporters to come see.

  • @johnmcdonald9977
    @johnmcdonald9977 ปีที่แล้ว +13

    At 78, and English, I was brought up with Imperial measures. However, I now use metric far more simply because it is more accurate from the beginning. Loved the video, as geometry eas akways my favourite part of maths.

    • @abrogard142
      @abrogard142 ปีที่แล้ว +5

      metric is not more accurate. objectively speaking neither is more accurate for they are both capable of measuring to whatever degree of accuracy you require.
      so you are probably talking about 'subjective accuracy' or 'the accuracy I get when I use' and that's a different thing.
      For the common person that probably means measuring to the nearest mm instead of the nearest inch. Much more accurate. Or to the decimetre rather than inch.
      For the dyi person it might mean measuring to the nearest mm instead of the nearest quarter. Much more accurate.
      Or the nearest eighth. Still more accurate.
      Or the nearest sixteenth. Still more accurate.
      Or the tradesman maybe to the nearest 1/32. Nope. Not more accurate.
      1/32 of an inch is less than 0.8 mm. It is smaller in the order of 4/5.
      Hence more accurate.
      32nd of an inch are or were routinely marked on measures, even school rulers.
      The question is: why did people not use them?
      Why did the different people use 1/16 or 1/8 or 1/4 etc.. ?
      And the answer is plainly that they used according to the level of accuracy they want.
      Nowadays it is assumed that 90% of people and tasks require only 1mm.
      This is not true. It is an assumption.
      The same as the assumption that metric is 'more accurate' .
      In fact I have a vernier caliper with scales in both metric and imperial.
      It measures to 1/1000 of an inch imperial and 1/50 millimetre in metric.
      1/50 of a mil is greater precision than 1/1000 inch.
      The question is why does it do this?
      How does it do this?
      And must it do this?
      Is it something inherent in the two scales?
      Nope. Not at all.
      They did it by using two different verniers. The imperial scale divides 25thou divisions by 25 to give 1000.
      The metric scale uses 50 division of 1 mil. to give 1/50 mil.
      But the imperial scale could just as easily have used 50 division itself, to give a half thou precision.
      It is all question of choice, for purpose, for person.

    • @growleym504
      @growleym504 ปีที่แล้ว +1

      There are two types of countries in the world: those that use metric, and those that have put men on the moon. I think proper inches are just as accurate as sillymeters, if you measure accurately. My mill and lathe are both in inches. Thousandths, actually, with a full turn of the wheel on my mill table being exactly 1/16". You realize of course that your body contains several proper units of measure, when quickness is more important than absolute accuracy and there are no official rulers or yardsticks handy, right? Spread your arms. That is a fathom. Six feet for you landlubbers. Once you calibrate your personal fathom and your personal great stride for a yard, you got that nailed. Mash your thumb on something and mark to either side. One inch. You can calibrate that too, by how hard you mash and flatten your thumb. Standard units of measurement have real world equivilants. whereas metric used to be sort of based on something something something but is now just arbitrary and meaningless.
      If your measuring and marking are accurate, then inches are just as accurate as french units.
      One advantage of metric is if you can count decimal places, even if you can't do math, you can sort of do math. Metric was invented for the mathematically challenged, which is why it was invented in France. I am sort of surprised the Italians didn't dream it up, for building their infamously out of plumb towers and stuff.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว +3

      @@growleym504 You are correct that Metric and Imperial are equally 'accurate'. I believe the post was confusing Metric and decimal. And here we have the actual issue. Mixing fractions and decimal gives problems. You say your mill table is 1/16 full turn, and is calibrated how? All machinists work (small scale) in decimal- for the US that would be thou. And tenths(!) If you want to do that on your mill, there must be a discontinuity on the scale, because 1000/16 is 62.5. That means you cannot rely on the scale if the movement goes past that discontinuity- you have to do some sums. Plus, you may want to work in decimal (thou) but your drills and cutters are fractional. Oops! With letter and number drills to fill in some of the gaps. No such problem in Metric- they are all decimal. Simples.
      Metric units, to be specific SI units, have the advantage of eliminating almost all of the tedious conversion factors that plague Imperial calculation. There are 1000 liters to the cubic metre, and a litre of water weights a Kilogram. A Watt is one joule per second. A joule is one Newton metre. A tonne is 1000 Kg. Get the idea? [ A horsepower is 746W (approx) or 33000 ft lbs per minute. But then you know that.]
      BTW two errors. Neither Liberia or Myanmar have put men on the moon (the other countries that use imperial)- not even with the help of German rocket scientists...
      And the US went officially Metric in the mid-seventies. Just have not managed to do it yet...

    • @growleym504
      @growleym504 ปีที่แล้ว

      @@Tensquaremetreworkshop You are correct there is a discontinuity. The units are in thousandths. A full turn is about 62.5 divisions. Sixteen turns is an inch so you can easily reset zero there, or actually anywhere. For a lot of parts that I end up having to make, quarter turns are well within tolerances. For fine stuff I stick to decimal. It's a great system. If you crank your handwheel for 8" or 10", the feed screw and gears will give you enough slop to require re-zeroing anyway, on these cheap Chinese machines. I can do math, so conversion is no obstacle.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว

      @@growleym504 I love it when people attempt to defend a flaw. If moving to a number of features, re-zeroing at each one introduces an error. Not zeroing means you have to keep track of the halves. Yes, one can deal with it- but you do not have to. Operating in decimal is simpler and less error prone. Which is why DROs work that way.

  • @maxenielsen
    @maxenielsen 11 หลายเดือนก่อน +3

    Engineer, here, born and raised in Merica.
    Let’s not make excuses for English unit of measure. They suck. Even the English got rid of shillings, pence, and so on, in their money. (For all practical purposes we’ve gotten rid of Pence, too.).
    You’ve done a great job of explaining this, and I am going to use this knowledge. You did a great job explaining how to convert the fraction of an inch from decimal to 32nd’s.
    Thank again! Thanks for sharing your knowledge! I’ll use this. And just for grins I’m going to make a chord length table jus like the one you shared.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop 10 หลายเดือนก่อน

      Technically, it is not the unit that is English, but the size of it. For example, the French also uses feet and inches- they were just a different size (their King was a different size). Many measures can be traced back to Roman ones, perhaps they should get the blame...
      Interesting that some people want to keep measures that are based on the size of (someone's) human body. And claim they are 'natural'.

  • @thomasdesalle9183
    @thomasdesalle9183 11 หลายเดือนก่อน +1

    0.4339 is just a coefficient with no unit if it was in inches you would end up with square inches after calculating the length. It's not very important but just to say when doing the same in metric use the same coeff don't convert it to cm.

  • @dimitrioskalfakis
    @dimitrioskalfakis ปีที่แล้ว +2

    if you don't have the book with the pre-calculated table of values use the 'law of cosines' for the general case (wikipedia has a good article on that).

  • @tonymiller8826
    @tonymiller8826 ปีที่แล้ว +1

    The same chart is found in Machinerie's handbook used by machinists for laying out bolt circles the old fashioned way. As opposed to letting a CNC machine do it with coordinates. I never go around the circle in one direction. I go from both sides around so the error is smaller. Using Vernier calipers helps too so I don't have to convert to fractions.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว

      It is not the Vernier that avoids the fractions, it is using decimals. Which Vernier measurement requires. Why on Earth do people use fractions?

    • @tonymiller8826
      @tonymiller8826 ปีที่แล้ว

      My Vernier calipers don’t read in fractions. I have several, they all read in .001” or .02 mm. So yes it is the Verniers.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว

      @@tonymiller8826 That was my point- 'Verniers' HAVE to be decimal to work. But it is the decimal part that is important. Because the manufacturer wanted to add a Vernier feature, he was forced to use decimal, and you now have a decimal scale. They should also be available in other measuring devices, and are in most of the world. 95% of it.

    • @tonymiller8826
      @tonymiller8826 11 หลายเดือนก่อน

      @@Tensquaremetreworkshop Whatever, you comment like an AI bot.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop 11 หลายเดือนก่อน

      @@tonymiller8826 I am guessing that is an attempt at an insult- but my algorithms cannot resolve that.

  • @mattedwards4533
    @mattedwards4533 ปีที่แล้ว +2

    I usually draw a line through the center of the circle . It gives me two starting points. This works great for cutting the error in half as long as I am not building a watch! LOL!

  • @trahtrebor
    @trahtrebor หลายเดือนก่อน

    Durn chief! So many geniuses! Thank YOU for taking the time to make this simple and easy for everyone.

  • @larrywong6331
    @larrywong6331 5 หลายเดือนก่อน +1

    Love the tutorial. helpful like the links to decimal chart. Get er done, Larry the cable guy. Their are so many solutions to derive same objective.

  • @angelhelp
    @angelhelp ปีที่แล้ว +2

    In geometry and other math, it’s a chord, not a cord. This is, of course, also true for music.

    • @chrisengland5523
      @chrisengland5523 11 หลายเดือนก่อน +1

      but you need a bit of cord to measure the length of the chord.

  • @TheWingnut58
    @TheWingnut58 11 หลายเดือนก่อน +1

    Why not diameter x Pi for circumference then divide by number of sections desired?
    Seems easier that needing internet to look up charts.....

  • @liahmu899
    @liahmu899 ปีที่แล้ว +4

    Thank you very much, Mr.Kimbal. Actually, I was trying to figure out how to divide a circle into 4 equal sections to build a paper pyramid with a slant angle of 76.345 grades. How do you find the slant angle of a paper pyramid? You know, Is interesting how I ask (myself) a question about a circle divided in parts to find the perfect slant angle and just your video showed up. My intention is to build a pyramid of a 6 1/2 feet with an angle slant of 76.345 eventually. You got a kind intention, people who are synch with the same intention will resonate with your kindness. Again, thank you.

    • @herrickkimball
      @herrickkimball  ปีที่แล้ว +1

      TH-cam is evidently listening to you (or reading your mind). 😳 I have no insights for getting that precise slant angle. Best wishes with your project. 👍

    • @Birkguitars
      @Birkguitars ปีที่แล้ว +4

      Not sure whether the 6.5 feet is height or width but either way the calculations are straightforward if the apex is directly over the centre of the base. Your height is one side of a right angle triangle and your base is at 90 degrees to that. So you have a right angle triangle with a known side and a known angle. Trigonometry will then give you the other dimensions and the rule that internal angles in a triangle add up to 180 degrees gives you the third angle.

  • @paulvandergriendt950
    @paulvandergriendt950 ปีที่แล้ว +1

    Your video caught my eye. Another method without "look up table". Bisect one segment to create right triangle. Use trig to calculate side opposite. Multiply that by two to find chord length.

    • @edeaglehouse2221
      @edeaglehouse2221 11 หลายเดือนก่อน

      That's how the measurement chart was created.

    • @edeaglehouse2221
      @edeaglehouse2221 11 หลายเดือนก่อน

      That's most likely how the measurement chart was created.

  • @barryulrich2170
    @barryulrich2170 9 หลายเดือนก่อน +3

    This is a good place to use a caliper and skip the decimal to fraction conversion.

  • @chrisengland5523
    @chrisengland5523 11 หลายเดือนก่อน +1

    If the object of the exercise is to divide a pizza into 7 sections for a group of 7, proceed as follows: Cut it in half. Cut each half into quarters and then cut each quarter into eighths. Eat one section and rearrange the remaining parts evenly spaced on the plate and serve. (Nobody will notice the missing bit and you might even get praise for how fairly you've cut it.)

  • @williamscott2466
    @williamscott2466 ปีที่แล้ว +3

    The one assumption that you've made in your calculations is that you knew where the center of the circle was.
    Without the center of the circle, you would have trouble coming up with the pie chart configuration, even though you would be able to divide the circumference of the circle into equal parts. On paper this could be simplified, however in the real world such as you suggested in a landscaping situation, or in a large round piece of wood, this (not knowing where the center of the circle ) would be a problem.

    • @WideCuriosity
      @WideCuriosity ปีที่แล้ว

      With a suitable sized right angle square it's not difficult to find a centre. Even for a very large circle a little trial & error with a tape measure should find it. After all, how perfect does the landscaping need to be to not be spotted as being slightly out ?

    • @farrier2708
      @farrier2708 ปีที่แล้ว +2

      If the circle was drawn with a compass then you would know where the centre was.
      If not:-
      Put the tang of your tape measure on a fixed point on the circle and rotate the tape about that point to find the maximum dimension across the circle and draw a line along the tape. Do the same thing at about 90 degrees and the centre is where the lines cross. The more times it's done from different points on the circle, the greater the accuracy.

    • @theeddorian
      @theeddorian ปีที่แล้ว

      It's difficult to draw a true circle without knowing where the center is. In landscaping, you can employ a cord and pegs to lay it out exactly. Stonehenge was likely laid out this way.

    • @icusawme2
      @icusawme2 ปีที่แล้ว +2

      A chord of a circle can be bisected which will intersect the center of the circle. A 2nd chord on the same circle can also be bisected, this will intersect the first bisection at the center point of the circle. I’m sure there is a TH-cam video that explains this technique. Cheers!

    • @edeaglehouse2221
      @edeaglehouse2221 11 หลายเดือนก่อน

      No need to actually find the center. You only need 3 points along the circumference of the circle to be able to complete the circle. Create a triangle from the 3 points. Pick one point to be the apex of the triangle and extend the legs from it so each leg is longer than the distance between the other 2 points. Slide the triangle so the legs are always touching the non-apex points. The apex of the triangle will always trace the arc along the circumference of the circle between the 2 points without needing to find its center.
      Need to continue the arc? Place your apex on one point and another point of your triangle on the existing arc. The remaining point of your triangle will be on the circumference of the same circle. Mark that point and continue as above.

  • @ypaulbrown
    @ypaulbrown 11 หลายเดือนก่อน

    wonderful information, I had a 7 foot diameter steel frame that needed 8 sections laid out....
    sure wish I knew this Chord method.....cheers from Florida, Paul

  • @dougcain2720
    @dougcain2720 10 หลายเดือนก่อน +1

    I hate math and you made it easy, thank you!

  • @DanielinLaTuna
    @DanielinLaTuna 10 หลายเดือนก่อน

    The decimal inches to fractional inches could also be worked out via ratios. (0.9051 is actually 9051/1000, so set up your equation with the desired denominator, eighth, sixteenth , thirty second, etc, as follows 9051/1000= X/32, then solve for X;
    0.9051 = X/32;
    0.9051 x 32 =X;
    X = 28.9632 or 29/32nds)

  • @carlmclelland7624
    @carlmclelland7624 11 หลายเดือนก่อน +1

    Interesting Herrick. For your next challenge, come up with a system that will trisect any angle using a compass and straightedge.

    • @chrisengland5523
      @chrisengland5523 11 หลายเดือนก่อน

      Ha ha. Yes indeed - and don't forget to collect your Nobel Prize in mathematics when you're finished.

    • @lynnlard5531
      @lynnlard5531 11 หลายเดือนก่อน

      Easy. Use the compass to mark points on each leg of the angle that are equi-distance from the vertex; draw a straight line between those two points, set the compass points to a visually estimated one third of that distance; begin iteratively stepping off those thirds along the line, making small adjustments each time until reaching that "just right" spacing.
      (If the angle in question is >180, do it for the reciprocal sector (pie shape) of a circle, and the back azimuths will then be the trisecting lines you seek.)
      (If exactly 180 degrees, draw a circle with origin "O" at the vertex, and inscribe a hexagon in that circle. ...almost a trivial matter since each side* of such a hexagon = the radius of the circle.)
      * - 60 degrees for a hexagon, i.e. a trisected 180 degrees.
      While that may not pass the most rigorous mathematical scrutiny, it should suffice for most practical purposes.

  • @tmiklos4
    @tmiklos4 11 หลายเดือนก่อน +2

    The (. .4339 ) isn't inches. That same .43 39 is just a multiplier. So that wii work for metric also. It is just the multiplier for 7 equal parts of a circle . I also prefer inches . But it works without conversation of the multiplier because that is just a given % of a circles conformance.

    • @seanmahoney1077
      @seanmahoney1077 11 หลายเดือนก่อน

      if the circle conforms, why need all those decimals?

  • @EMNM22
    @EMNM22 ปีที่แล้ว +1

    If that was a pecan pie, your getting the smaller piece! LOL! 🤘😁

  • @dave5176
    @dave5176 11 หลายเดือนก่อน +2

    Let's say that you want to change the diameter of the circle to 8 inches. You already have the circle divided, so just use the same paper and set your compasses to a four inch radius, draw the circle and it's already divided into seven sections. Works for any size smaller than nine inches.

    • @annseger9519
      @annseger9519 11 หลายเดือนก่อน

      You could enlarge it also.

  • @philip1522
    @philip1522 ปีที่แล้ว +1

    At last! A fool proof method of avoiding fights over who's pizza slice is biggest!

    • @herrickkimball
      @herrickkimball  ปีที่แล้ว

      Excellent idea. I looked up the ideal number of pie slices from a 9" pie pan and the internet told me 6 to 8. Well, that would be 7 and that's why I chose 7 for this video. It occurred to me that pie pans could be made with slight indents in the perimeter at the 7-slice dimensions as a guide for precise slices. For pizza slices I can see the same idea. This could be a really big money-making idea for someone! 👍😁

    • @seanmahoney1077
      @seanmahoney1077 11 หลายเดือนก่อน

      The true meaning of PI

  • @clivewilliams3661
    @clivewilliams3661 11 หลายเดือนก่อน

    Its all so much easier in metric. This whole exercise relies on having the book that most people don't have so its mostly a wasted exercise. However, simple maths solves the problem i.e. the chord length is 2 r Sin(a/2), where r is the radius and a is the segment angle, it could also be written as d x Sin(a/2), where d is the circle diameter. With modern scientific calculators it will be much quicker to use the formula than to look up the chord factor and then punch in the relevant info to come up with the answer.
    I can't see how this determination would be useful to most Architects as they will use a CAD program, where by pressing a button or pointing a scribe a circle is instantly divided into segments, gone are the days of drawing boards and tee squares.

  • @philholman8520
    @philholman8520 ปีที่แล้ว +2

    Thank you for sharing! 👍✌️🇬🇧

  • @baconsledge
    @baconsledge ปีที่แล้ว +1

    Always easier to use a ruler/scale with 10’ths inch. You can then avoid silly fractions like 29/32’s.

  • @HobbyOrganist
    @HobbyOrganist 11 หลายเดือนก่อน

    The more sections dividing the circle, the more errors accumulate- like the width of one line "off" from perfect width of the compass multiplied by the number of sections adds up to the quarter inch off.

  • @Matthew-ju3nk
    @Matthew-ju3nk 11 หลายเดือนก่อน

    Always something interesting every time I visit your channel. Thank you very much!

  • @itsamemario8014
    @itsamemario8014 11 หลายเดือนก่อน

    What an absolutely archaic measuring system you have, 11.71875 Barleycorn. America really needs to join the 21st century.

  • @davebashford3753
    @davebashford3753 ปีที่แล้ว +3

    Not to be too pedantic, but your number in step 2 is unit-less, not inches.

  • @bjorncarlsson6295
    @bjorncarlsson6295 11 หลายเดือนก่อน +1

    To skip the decimal to inch conversion: get metric altogether🤗

  • @Vikingman2024
    @Vikingman2024 11 หลายเดือนก่อน

    You have an accumulated error by moving the tape measure twice, 1/64 off when marking the three inch mark and 1/64 off when marking the 29/32 mark. Off course the error could go either way, if the error goes the same direction for both marks, then 1/64 + 1/64 = 1/32 and 1/32 x 7 = 0.21875" or close to the 1/4 inch that you are off. My guess is that the diameter is slightly off along with the sharpness of the lead on the compass and the pencil thus introducing three more errors. Once when instructing my students (I was an applied physics, math and CAD/CAM instructor) we took three different tape measures (different brands) and aligned them next to each other to check the accuracy, two were real close, but not perfect, the third tape measure was off about .010" to .015". Another way to do it is by using a CAD program to give you the exact measurement quickly and there are a few free CAD programs out there. Just my two cents worth...Good video, especially for those with limited math skills!

  • @Tensquaremetreworkshop
    @Tensquaremetreworkshop ปีที่แล้ว +1

    1) It is NOT .4339" - the factor is dimensionless, so no ".
    2) Why convert from the decimal number to fractions? Use a decimal measure. If you are a machinist, you already have one (you will be used to working in 'thou'- i.e. decimal). If not buy one- using fractions is limiting and without justification. You are also losing accuracy by approximating.
    3) Those in the Metric world (95% of the world) do NOT need to 'convert'- it is you who are converting. By definition the inch is 25.4mm. BTW the USA became officially Metric in the mid-70s.

  • @christianmartin8751
    @christianmartin8751 ปีที่แล้ว

    "Conversion of decimal inch into 32 fraction" that was the best and most hilarious part for my metric mind 🤣🤣🤣
    By the way, all these calculations are useless for up to 10 or 12 sections as you can get a much better, simpler and faster result with just a few iterations of try and correct.
    And for a larger number of sections, you will quickly find out that once you have set the legs on the compass with a certain imprecision and gone around the circle with more imprecisions that add-up, the last section will never come to the correct size. Therefore once again correct and retry...

  • @davesanders9203
    @davesanders9203 ปีที่แล้ว +1

    I CAN do it without ANY chart! No TRIG! NO MATH CALCULATIONS!
    1. Determine the circumference with a piece of paper (or similar material) .
    2. Divide circumfrence "paper" into however many sections you want - transfer back to circle.
    NO breaking it down into 32nths or whatever! EXACT measurements. Don't need to know center of circle!

    • @herrickkimball
      @herrickkimball  ปีที่แล้ว

      Good idea but will it work with an odd number of sections? How would you fold the circle into 7 equal sections?

    • @davesanders9203
      @davesanders9203 11 หลายเดือนก่อน

      Odd - Even does not matter. Don't no where you got the idea of even number of sections. I got it out of an old "Machinist Handbook" to cut an ELEVEN TOOTH GEAR.@@herrickkimball

  • @tonyennis1787
    @tonyennis1787 ปีที่แล้ว +4

    I cannot recommend this method. What if your original circle isn't exactly 9"? Now all the measurements will be off. What if the web site that converts to fractions isn't precise enough? What if you don't have internet access? What if after a hard day in the sun you're prone to math errors? The old timers would get calipers, estimate the distance, and walk the calipers around the circle. After 7 steps (in this case), you're either short, on, or long. If short or long, make the appropriate change to the calipers and walk around again. Repeat until you're "close enough". Then walk both ways, counterclockwise and clockwise, and mark between the paired lines. This step averages out the error.

    • @theeddorian
      @theeddorian ปีที่แล้ว

      Exactly. I use that divider/caliper trick to find the center of boards. In the real world "precision" is an ideal. You work to "close enough" instead. My dad was a sheet metal worker and used 22/7 as an approximation for pi so long, that he forgot the decimal version. You want to scale your working definition of "precision" to the size of the project, and remember that each decimal place is ten times smaller than the previous one. Then employ tactics that minimize cumulative error between the approximation you are working to, and the ideal you are aiming for. The video example is frustrating because .9051 has no common factors with any power of 10 except 1, so converting it to a common fraction is never going to be exact, expressed in any useful common fraction. In fact, it is an instance where using the metric system might be superior.

    • @tonyennis1787
      @tonyennis1787 ปีที่แล้ว +1

      @@theeddorian No, the _decimal_ system is superior. The arbitrary length of a meter and all its meaningless subdivisions don't matter. American Machinists have been using decimal inches for 100 or more years.

    • @theeddorian
      @theeddorian ปีที่แล้ว +1

      @@tonyennis1787 Read what I wrote again, and take your personal biases out of the internal text in your head. No carpenter or woodworker, or landscaper works to the tolerances a mechanical engineer uses. For wood working, either system works quite as well as the other. And arguably, a system that uses common fractions will be superior for woodworking, especially if you use hand tools. They are easier to calculate with in your head, as long as you aren't using any measure finer grained than a 64th of an inch, which is slightly more than 0.39 mm. And that is entirely reliant on IF you employ any kind of universal measurement system at all. You can do very high quality work and never employ a measurement in either inches or millimeters.
      One of my neighbors has a table I built for her, which is scaled to her size. The only measurement I took was three pencil marks on a stick. One was the height of the top of her thigh when seated on one of her cut down chairs, and the others were the length and width of the leftover counter top piece she wanted to use as a top. It is square, level, supports my weight, and lets her work at it seated in a modified chair that allows her feet to touch the ground. I never did measure it.

    • @tonyennis1787
      @tonyennis1787 ปีที่แล้ว +1

      @@theeddorianSo many words.

    • @theeddorian
      @theeddorian ปีที่แล้ว

      @@tonyennis1787 I understand, and I think I mentioned this. Engineers work to tolerances most of the rest of the world doesn't appreciate. I don't agree that tenths of an inch is superior to any other system, or that any particular system is even useful in a wood shop. I personally do prefer common fractions when I am measuring things in the shop. The arithmetic is easier for me. You might want to look at "BY Hand and Eye" by George Walker and Jim Tolpin. You really do not need a ruler in a small shop unless a client walks in with a list of dimensions.

  • @cafemolido5459
    @cafemolido5459 ปีที่แล้ว +1

    Compute the circumference (2 · π · r) and divide by 7

    • @manmachinemake3708
      @manmachinemake3708 ปีที่แล้ว +1

      That doesn't give you the straight line computation (3.9051" chord as it is used here). Instead, it gives the arc length as if you were wrapping a string around the circle 4.0392"

  • @captainkirk1745
    @captainkirk1745 10 หลายเดือนก่อน +1

    Awesome and extremely helpful. Thank you kindly!

  • @tigerseye73
    @tigerseye73 ปีที่แล้ว +1

    You need to teach the guys in the pizza business about this.

  • @Codger2015
    @Codger2015 11 หลายเดือนก่อน

    What would be interesting is how to get the multiplier if you don't have access to the chart in the Fine Woodworking.
    In other words, what is the mathematics involved to get those numbers?

    • @wyldanimal2
      @wyldanimal2 11 หลายเดือนก่อน +1

      SIN(180 / # Sections ) x Diameter = Chord Length

    • @Codger2015
      @Codger2015 11 หลายเดือนก่อน

      Many thanks for the math.@@wyldanimal2

  • @harrynutz4550
    @harrynutz4550 ปีที่แล้ว

    You learn something everyday 👍

  • @Zen_Ft5e
    @Zen_Ft5e 11 หลายเดือนก่อน

    Works exactly the same with the same chart for cm's. Plus no converting to fractions at the end.

  • @branni6538
    @branni6538 11 หลายเดือนก่อน +1

    I figured a simpler way than this. Way easier. And as a carpenter you for sure have the tool to help you figure it. The answer is right there in front of you!

  • @ludodg
    @ludodg 11 หลายเดือนก่อน

    Easely divide …. And you have to use a chart, calculator, online app, …
    Read 16th’s as 2 32’s …
    Line out, use the compass, … and then eyeball a correction.
    Yeah, that’s a piece of cake, .. LOL ;)
    It does not help that when you determine a chord with a little error, … you will add that error every time on every part.
    I would:
    Divide 360 degrees into the number of parts. That would give me 51,4285… degrees.
    Times two: 102,857 degrees. (*)
    Draw that angle within the circel. Now where the angle touches the circle, I mark the dots.
    With the help of my compass I can easely determine the middel between those two marks … so i have determined the chord for one part.
    Needed: compass, simple calculator for a division and a multiplication and a protractor.
    And no need to deal with imperial of metric measuring.
    (*) by multiplying by 2, you use a greater angle, thus making the error you get when rounding up, smaller.
    It’s easy to measure an exact middle between two points with a ruler, without having to fear to make a round-up error.
    Also, i’m from a part in the world where we use metric … so no need to deal with 16th’s or 29/32…..
    Just my 2 cts

  • @trex283
    @trex283 11 หลายเดือนก่อน

    You can get decimal sae measuring tapes. They are used for the aircraft industry. Suoer nice.

  • @Some_Guy_Called_Raven
    @Some_Guy_Called_Raven หลายเดือนก่อน

    You are working in inches, and the chart is based on one inch. How would you convert to feet? Example, a 9' circle into 16 pieces?

  • @buskov
    @buskov ปีที่แล้ว +7

    thank God for metric

    • @larslindthomsen7370
      @larslindthomsen7370 ปีที่แล้ว +3

      Millimeters are just easier, everything adds up to 10👍🏻😁🤗

  • @henrysara7716
    @henrysara7716 11 หลายเดือนก่อน

    Thank you Herrick.

  • @DavidLocke-s4r
    @DavidLocke-s4r 10 หลายเดือนก่อน +1

    I looked for the fraction calculator, but I did not find it. What is its url?

    • @herrickkimball
      @herrickkimball  10 หลายเดือนก่อน

      www.inchcalculator.com/inch-fraction-calculator/

    • @DanielinLaTuna
      @DanielinLaTuna 10 หลายเดือนก่อน

      Or just work it out via ratios (A is to B as C is to D, or A/B = C/D):
      (remember, 0.9051 is actually 9051/1000) -
      set up your equation with the desired denominator, eighth, sixteenth , thirty second, etc, as follows (I’m gonna use thirty seconds)
      9051/1000 = X/32, then solve for X;
      0.9051 = X/32;
      0.9051 x 32 =X;
      X = 28.9632 or 29/32nds)

  • @addy3dia
    @addy3dia 11 หลายเดือนก่อน

    For example if mesurement of the circle is fraction do also turn that into a decimal b4 u multiply it?

  • @Simon_Jakle__almost_real_name
    @Simon_Jakle__almost_real_name 11 หลายเดือนก่อน +1

    Would you say you provide a (partly) digital way here? Any multipliers of some demanding number would be easy in many cases, like if i have 7 equal sections i divide them by 4 to get 28 equal parts.
    Carl Friedrich Gauss (en.wikipedia.org/wiki/Carl_Friedrich_Gauss ) was so proud of having found a way to divide a circle into 17 (equal) parts (as in en.wikipedia.org/wiki/Heptadecagon ), "claiming" this to be his greatest discovery in the year 1801 as far as it's told, so he might used calculus, but this must have been a rather/mostly analog(ue) way.

  • @markbusby9709
    @markbusby9709 7 หลายเดือนก่อน

    You are a star ! Thank you so much.....

  • @fraaaas
    @fraaaas 10 หลายเดือนก่อน

    O, man isn’t it time for the metric system soon?

  • @tommycorbet
    @tommycorbet 11 หลายเดือนก่อน

    What would be the angle on the end of a 2x4 chord, for that matter, any size lumber? Don't know much about trigonometry! 🤔

  • @zaugitude
    @zaugitude 11 หลายเดือนก่อน

    Nice technique, thanks.
    Really no conversion necessary for metric. Indeed, even the conversion to a fraction could just refer to “units”; the measuring system is completely irrelevant to the process.

  • @crazysquirrel9425
    @crazysquirrel9425 ปีที่แล้ว

    Thumbs up because you use REAL measurements and told the others to convert it themselves.
    I HATE the metric system.

    • @steveh8724
      @steveh8724 7 หลายเดือนก่อน

      LOL, what a weird thing to HATE. I mean feel free not to use it, but why hate it? REAL measurements? Hah, that's too funny!

    • @crazysquirrel9425
      @crazysquirrel9425 7 หลายเดือนก่อน

      @@steveh8724 I can easily see between 1/4" and 3/8 inch and similar.
      I can NOT easily see a 1mm difference in anything.
      Dang few things need to be that precise (metric).
      REAL Measurements are the US System of measurement.
      Saw a commercial once that advertised you can pedal 8000km/hr.
      If that 5 or 6 MILES? Or just one or two?
      KM means nothing to me. And I do not carry conversion tables around with me either.

  • @paulwomack5866
    @paulwomack5866 ปีที่แล้ว +1

    Nice compass. Osborne, I think. Almost as valuable the Starrett 92.

  • @leonardmcdermott7703
    @leonardmcdermott7703 ปีที่แล้ว +1

    A call to all Americans, convert fully to metric, you are half way there as it is. Regards from Dublin 🇮🇪 .

    • @americo2958
      @americo2958 ปีที่แล้ว

      I wish we would, it would solve a lot of problems

    • @leonardmcdermott7703
      @leonardmcdermott7703 ปีที่แล้ว

      @americo2958 Medicine delivered in cubic centimetres, engine sizes in litres, photographic lenses in millimetres, food information labels in kilo calories...the list goes on. Question, what does two and a half pints of water weight? In metric two and a half litres of water has a weight (mass) of 2.5 kg...easy :-). Join us ASAP.

    • @tomasdvorak7307
      @tomasdvorak7307 11 หลายเดือนก่อน +1

      As the saying goes, "there are nations who use the metric system, and there are nations who put man on the Moon".
      P.S. I'm also in the metric system camp. 😅

  • @icusawme2
    @icusawme2 ปีที่แล้ว

    I was hoping you were going to show us a trick that didn’t need a calculator…This is still good though,Thanks!

  • @susanhansen9032
    @susanhansen9032 ปีที่แล้ว +2

    Fun and useful. Thank you.

  • @romandybala
    @romandybala 11 หลายเดือนก่อน

    Im not good at math.
    Just like your last step, I guesstimate circumference sections and adjust compass in tiny movements till I hit the starting mark . Takes about as long as it took to write these two sentences.
    Asked a cabinet maker once how he laid out an oval table top, said he had no formula ,just used his father's full size templates.There is a mathematical way to do it also. Again, hopeless for me. I drove two nails for length of oval , and used a piece of string tied in a circle to allow for width at centre of oval and used a pencil to pull string in an oval around the two nails. Close enough to perfect and took less than a min. The maths for it was baffling to me.

  • @phoenix2441
    @phoenix2441 10 หลายเดือนก่อน +1

    Thanks for sharing great job!

  • @tomasdvorak7307
    @tomasdvorak7307 11 หลายเดือนก่อน

    A trick in carpenter's eyes - or a simple calculation an elementary schoolboy's eyes (a student, who pays attention to the calculus classes and remembers what the sin function is for). And, @3:30, the ratio is dimensionless, i.e not in inches. Later, the required conversion is the "benefit" of the imperial system but again, you can do that conversion almost as quickly with a calculator or on a scrap of paper, no need for the internet thingy, as long as you know the elementary calculus.
    Ya, the formula for the "magic" table you so kindly allow viewers to printscreen is sin(180°/n), there you go, no need to thank me, it's beyond elementary.

  • @randallbegay9162
    @randallbegay9162 11 หลายเดือนก่อน

    How about doing a 8 section circle ? For example, doing a 24’ Navajo Hogan with door opening towards east….

  • @mediaguardian
    @mediaguardian ปีที่แล้ว +1

    All you're doing is finding one side of an inscribed polygon. So just do the trig. No book required. Much simpler.

  • @garryleicester9823
    @garryleicester9823 10 หลายเดือนก่อน

    Great video, thank you. Isn't it time you Americans caught up with the rest of the world and switched to metric? SOOOO much easier

  • @DownhillAllTheWay
    @DownhillAllTheWay 10 หลายเดือนก่อน

    It's easy to use a protractor, and you won't have to rub out and try again - you'll get very close, first time.
    Divide 360 degrees by the number of segments you need, then use a circular protractor to get the right answer first time. Let's say you want 11 segments. 360/11 = 32.72727 - you can't measure such tiny divisions of a degree on the protractor, but as close as you can get is 3/4 of the way from 32 to 33 degrees. Then, on you calculator, press "+", "=". That will add 32.727 to the 32.727 you already had, to give 65.45454. press "=" several more times to get 98.181818, 130.90909, 163.63636, 196.363636, 229.0909, 261.818,
    294.54545, 327.2727, 360 - and we have done the entire circle. Place your protractor and without moving it again, mark out all the angles, then draw lines from your centre to each mark.

  • @yknott.1493
    @yknott.1493 5 หลายเดือนก่อน

    Maybe hold your compass, the set point not the pencil, to perpendicular to the paper for better results?

  • @GNU_Linux_for_good
    @GNU_Linux_for_good ปีที่แล้ว

    07:36 *No - it doesn't* - my European metric skull is buzzing, boss.

  • @powerwagon3731
    @powerwagon3731 11 หลายเดือนก่อน +1

    Thanks!

  • @terryowen6381
    @terryowen6381 ปีที่แล้ว

    Isn’t it easier to divide 360 degrees by 7, which is 51.4 and work with angles rather than chords. Your video shows how inaccurate the chord methods is, since you had to do it twice (to compensate for the error).

  • @CurmudgeonExtraordinaire
    @CurmudgeonExtraordinaire ปีที่แล้ว +1

    You took a very easy math problem and complicated it by requiring table lookups and online web calculators...
    Also, because of the way you put your compass flat on the paper when setting the distance, you introduced some error into its set length. You should have had it with the point stuck into your starting point and then kept adjusting the screw until it produced a mark exactly over the distance you have measured. Also, my starting in one direction and continuing in that direction all the way around the circle, you allowed for more error to creep into your marks. If you had marked both ways from the starting point and then did the same from those two points, your introduced error would have been half of what it was. An even better solution would be to use a compass with points on both ends so that you could pivot from one end to the next as you moved around the circle. This would have removed the accumulated error that was caused by where in the pencil lead width mark you were placing the sharpened point of the compass.

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop ปีที่แล้ว

      He further complicated it by converting the decimal number obtained into a fraction.

    • @CurmudgeonExtraordinaire
      @CurmudgeonExtraordinaire 11 หลายเดือนก่อน

      @@Tensquaremetreworkshop -- Not for those of us in the US who are competent working in fractions... It would be completely idiotic if you told everyone that the way to do this was to first go buy a new measuring device because what you've always worked with isn't good enough...
      Personally, I would have done the video different, showing the simple math involved (without tables and such) with the result in a decimal inch AND THEN show how to convert from the decimal inches to fractional inches if the viewer did not have a decimal inch measure. This could be structured to work with either the US Customary Units OR the metric system since the calculations are basically unitless...

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop 11 หลายเดือนก่อน

      @@CurmudgeonExtraordinaire As I have said several times, I agree that the base unit is not important. In this type of case. Being forced to do a conversion because the only scale available is in vulgar fractions is, for me, not acceptable. It severely, and unnecessarily, reduces the accuracy involved. An extra step that makes things worse? How can that be a good idea. A Vernier caliper, which is a fairly cheap and useful tool, will be in decimal. Cast off your hair shirt, and embrace accuracy.

    • @CurmudgeonExtraordinaire
      @CurmudgeonExtraordinaire 11 หลายเดือนก่อน

      @@Tensquaremetreworkshop -- From a math standpoint, fractions are usually more accurate... With decimals, you are only stating a value to a certain number of significant digits... If you say "1/2", then it means EXACTLY that value... If you state "0.5", then it is "0.45

    • @Tensquaremetreworkshop
      @Tensquaremetreworkshop 11 หลายเดือนก่อน

      @@CurmudgeonExtraordinaire Wow, talk about shooting blind! I actually have a degree level math qualification...
      Saying 0.5 means a tolerance spread of .05? Since when? Quote a source. Tolerances are usually expressed separately, as they vary. It may be '0.5 [+0,-0.005]' for example. Try expressing that as a fraction. From a math standpoint, 0.5 is 0.5 in the same way that 1 is 1.
      Indeed, there is an explicit way of expressing tolerance, in engineering, via a convention- if you write 0.500 you are defining the value to three significant figures, so it can only vary by +- 0.0005. (there has to be trailing zeros for this convention to apply). Try doing that with fractions. And in the real world there is always a tolerance- exact is a platonic ideal.
      More accurate? There are more decimal numbers than fractions, so how can fractions be more accurate?
      Above, you specified the error in the weight of a Kilo of water- as a decimal. Care to do it as a fraction- to the same accuracy? But at least you used Celsius - well done.

  • @davidhansen4471
    @davidhansen4471 11 หลายเดือนก่อน +1

    that is exclent thank you