Divide Numbers By Connecting The Dots

This is exactly like long division, except each digit is drawn into dots.
Connecting dots can be seen as subtracting the dividend by the divisor.
Which also explains why this works for polynomial division as well.

I'm so happy this isn't how I was taught to divide.

Next lesson: How to divide numbers using sweet potatoes.

Which way do you connect the dots? Why are u going north vertically in some and south vertically in others? Left or right? You skip a ton of info . Then finally u have a Y shape. Why didn't u start with a Y shape? This is very confusing.
What do you mean there's no figures started in the column? What is a figure? I can see a horizontal line , so why isn't that a figure? It looks exactly like the one on the left, i see no difference

i see there seems to be a problem of knowing which dots to connect

Try dividing 1001 by 7 this way. >:)

Man, you are a master of deception. Selling the good old division algorithm under the guise of dots is brilliant.
For the rest of you, this is the the same division algorithm that you learn in school. Just instead of digits you use dots. Instead of subtracting you connect the dots.

This only seems to work if all of the digits in the divisor are less than or equal to each of the digits in the dividend.

I was a little confused at first but after the second time I got it and it's made everything so much easier.

WHAT SORCERY IS THIS

Looked at comments and _everybody’s been stumped by this for 5 years-_
It’s 2019 I don’t get it, don’t think anyone else will

What a method ! Thank you for sharing with us such an interesting trick

I think I will like this method WHEN I learn to use it. Right now, I can't get past your explanation of of how the answer is calculated, so I'll have to look elsewhere for clearer instructions. Thanks for getting me interested, though. Hey, there were NO other explanations, so I had to come back here. Finally, on about the tenth view, I understood how you counted the dots. Funny, that I had no such problem with your other method. Maybe that's why I liked it more.

This method is efficient only if the digits in the divisor are all small numbers. Let's consider 392 / 98 as an example, where the divisor digits are large enough. In this case we should see the 3 dots in the first line as 30 dots in the second line and do the similar thing to the second and the third lines, and this process is quite complicated.

This is really coolest method I have seen I really like that method it is better than any division method this is the greatest and simplest method than other

Seems cool !!! I a lot of details are missed. ¿From where I start connecting dots and where I go? ¿Just straigh lines? I proof will also be very interesting to see. Good vid!!!

This is beautiful thank you so much. It's like abstract algebra.

I think I’d have trouble with the divisor drawings. Are there any more examples on how to draw the connected dots? Do you always use the first dot to link connections?

This method is very good. I dont know why a bunch of idiots are pissed off in the comment section. It worked, a good tool to have in an arsenal. Some people just looked in for a minute and tried not to understand anything.

But this means that it's not possible for a divided number to have a digit higher than any of it's original digits.
100 / 25 is 4, but 4 shapes can't be created from the single dot that 100 draws.

do a book about this trick! love your channel!

Me: Wait, everything is just dots...
Presh: 🌎👨‍🚀🔫👨‍🚀

And it's no surprise that this method works for algebraic expressions. Where as dividing numbers means you are working in base 10, dividing algebraic expressions means you are working in base x.

is this applicable if the dividend is not divisible by your divisor?

omg... this is so confusing and does not apply to call cases. Definitely not stitching any dot.

Never thought I would say this
School taught me better then that

interesting way of visualising the process... but some things are very unclear. What if there is a zero in one of the numbers? And extending from that, what if the resunlt is not integer? Is there a way to apply this method in those cases?

It looks like this method only works when no carrying is required in the multiplication. This wouldn't work if I were to divide 21 by 7 - I don't even have 7 dots to connect!

Great vid but maybe explain the rules for connecting dots, how to choose left, down, or right. Otherwise there are several ways to connect the dots starting from the right to create different figures that will be incorrect.

What the duck? You can use this for Algebra?! Mother of God why didn't I find this earlier!

What a great way to divide. Connecting the dots. I could try that myself. But you know, I love long division.

how do you do 12 divided by 4. it looks like . .
. so ?

if you divided a number with 0s in it...
for example, 1001/7...
you would put 10 dots because this works with 1-10 digits. It's kind of complicated, but true

if you do it vertically, that second one can also be 1/2/0, which is X+2, so...... , so there's gotta be more to it that's not explained, or else it falls apart pretty quickly

A good way looks awesome..!

Like the multiplication by drawing lines trick, it works well for illustrating multiplying and dividing graphically, which can aid intuition, but when the digits are all large (like 7,8,9), it gets tricky. For example, try this trick dividing 96497093 by 979.

i dont get it!!!!

for the algebraic expression, how do u decide which figures get multiplied to x or powers of x?

AWESOME VIDEO😀😀😀😀

Well it doesnt always work but i used the method in my head and i divided 120 by 12 and sure i got 10

That I relate to. When young I devise several methods to mental calculate, specially if a number is a multiple of any other chosen one. It wasn't exactly as decribe here because I never make / figure out the last step but it is close to the first steps. Let illustrate by an example. I want to know if 8358 is a multiple of 7. I first substract an already known multiple of 7 (multiplied by 10, 100, 1000...) from the number studied. Here it gives 8358-350 = 8008. I repeat that process with the rest for 8008-7000 = 1008 and then 1008-700 = 308, 308-280 = 28 and finally 28-28=0. If there is no rest, it is a multiple. The idea is to keep it easy to remember while doing something else. I was first in that exercise when I learnt about factors in grade 4 or 5 (about 9 to 10 y.o.) while walking to school when I had nothing to read. The numbers tested were on car plates along the sidewalk I walked on. Now being 55 years older I still do that when I walk or drive. That method was design to be versatile and can take different approach like this one for the same numbers, 8358 and 7 : 8358-7000 = 1358, 1400-1358 = 42 and 42-42 = 0; no rest hence 7 is a factor. The twist here was to see 1358 as an easy number to compare with a multiple of 7 but higher. When looking at the method in the video I see what I was applying develop in my mind. The goal wasn't not the same but the processes are close one to the other.

2:38 what happen to last 2 columms?

I did it in my head, got 1,102. Then you did the dots and now I don’t think I can divide anymore because you confused me so much lol. An abacus is interesting, doesn’t mean it’s replacing the calculator.

You didn't explain the general method.

the polynomial thing at the end proves it works in all bases

Great video/method, although there are 2 things that i can't quite understand: 1) the pattern you choose/ chose to connect the dots in the first example and 2) the column at which you stop when taking the answer (i mean it's obvious that the result will be a 4 digit number in the first example and a first degree polynomial in the second but, more details please?)

I have had more luck designing the dot covering graph first and then obtaining the numbers from that. Kind of reveals what numbers are permitted by this method.
This must be why you called it a 'trick' :)

We write numbers in base ten as sums of products of integers and the base, ten, to the power of its place value (with ones place being 0, tens place being 1, and so forth). So 231 would be written as 2*10^2 + 3*10^1 + 1*10^0. If we let the base be arbitrary, say x. 231 in base x is 2*x^2 + 3*x^1 + 1*x^0. If x is zero, then every number is equivalent to zero, so base zero doesn't make sense. But what this means is that any polynomial is just a number of base x. When we set the number equal to it, we are solving for in what base that number is equivalent to the right hand side. The solution to 1*x^2 + 0*x^1 + 1*x^0 = 5 => x^2 - 4 = 0 => x = 2 (we want positive x because it makes more sense.) So the number 101 in base 2 is equal to 5.

Literally me without paper, yelling: *1102* FRICKING 1102 RG GVRVRRV BRRGRVRV

Thanks for this video.
i don't anderstand a lot, because i don't anderstand a lot English, but this video seems be a good one . I hope someone explain this in french. Have a nice day ! 15/04/20

Please explain with more examples..
What about 9801÷99??

What if you run out of dots in a column?
Like, if the first digit of the number you are dividing by is larger than the first digit of the number dividing from?

Will it work on any long division

Nice one sir....I have used this in my lessons too.. :)

You created a geometric long division, but you forget to specify one point on the video and forget to manage when it's 11/2, =)
You can make a pro version of your algorithm pretty easy. Nice job.

Can anyone provide a source for proof that this method works on the two methods of division described in the video? I'm very intrigued.
I would also like to know how you know not to go passed a certain point on the dots.
For example, you only had 4 numbers but 6 columns in the first problem.
Then the second problem had 2 numbers and 3 columns.
How did you know to stop at 4 and 2, not 6 and 3?

Can this method work for any other signs such as addition and subtraction ?

Thanks for this video:-)

If you look closely it's like normal division only. But interesting. Thanks a lot. I love this.

and thats how aliens do math

does it only work with a few numbers like that have some sort of link together? like 15248/16 doesn't work and a lot of other ones don't either

How do you know when to stop? I guess you could say when there are no dots left, but in that case what if the answer is 10 or 100 or any 10^x (x >=1). Great trick BTW.

What happens if you run out of dots in a column using this method?
Example: (I just thought of this today) 952/2 would leave exactly 1 dot in the hundreds column. What do you do then?

So then how are you supposed to do 882 divided by 49?
Also is it possible to do this with decimals?

This didn’t work for me when I used different dot configurations than the example.

It's confusing. Can you answer me these questions? 1. What do you do if there is a zero in the number you are trying to divide by? 2. Is it that the number of dots connected in one shot is the number your trying to divide with adding up all of its digits? 3. It's confusing, but amazing.

Thanku you so much for providing such videos 🙏

There are a couple of limitations to this trick. First each digit in the divisor must be less than any digit in the dividend. Also the number of digits it the divisor must be a factor of the number of digits in the dividend. These are 2 of the limitations I found and I don't want to check for every detail but I'm getting the list isn't very short. This method is helpful In a few good cases but I don't think it is worth it to check for every mathematical equation.

I don't know why this isn't taught in school. It's actually useful.

can you please put more light or explain this method in abit more than this?
Im trying to understand it but, every road known to me is leading me away from Rome.
Other methods Ive tapped in on the net took me to my destination. BUT this one is driving me
crazy. for the simple reason that I just dont know when do you go vertically, horizontally or
other angle not shown. And the shape youve mentioned, thats what kill the cat for me.

I'm going back to and using long division.

Can I use this method for solving division with reminder?

It does not work for all cases.
If A ÷ B where sum of digits of B exceeds sum of digits of A, it won't be possible to conduct division using dot method.

If you connect the dots vertically, this doesn't work. You should specify the lines must be horizontal. Just a thought... I really enjoy your posts!

There seems to be so much that's not explored by this video.
What happens when the numbers are not carefully selected to work out perfectly?
What if there's no number in the second column where you need to connect to 2 dot?
What if you divide by a large number and there are not enough dots to match to?
What about remainders?
So many more questions to explore to see if this works beyond the two examples shown.

love it! Proff

I guess it doesn't work for polynomials with negative terms and for division of a number by a number less than 10, right?

Well I got the answer in my head by the time you drew the first dot, but still, this should be interesting.

How is this so simple. Does it work all the time

So we write the 133,342 as vertical dots then, we connect formations of 4 dots each (left to right), finally, we log how many formations begin in each column (left to right) and we stop when all formations are accounted for. The only problem is, as some others have commented, it doesn't work all the time. I tried a different connecting pattern using zig zag lines instead of your T and inverted T method. Instead of 1102 my result was 11011. Interesting method, but maybe not so reliable...

I'm confused about problem #1, how did he know to stop in the forth column? before I saw that part, I continued for columns 5 & 6 and came out with 110200. He doesn't go on to explain later in the video.

divide 18 by 6... it does not work.
in fact, the "10" has to disappear to make 10 "1".
you forgot to say that.
this method is better to see how it works.
but it is not a better algorithm (I mean it's quadratic)

Wow amazing... Alien method... Thanks for sharing... ☺️👍👍👍👍

This is interesting. Obviously you can't do just any numbers, because you run out of dots. ...or can you? If you don't have enough dots, simply carry over one dot from a column to the next column to the right, creating 10 dots there. Also, I found it less messy (still extremely messy, though) to, rather than connecting the dots, simply cross out dots one at a time. But the very first dot you cross out (any in the left-most column involved) in one full round of subtraction, circle it instead. Then count the circled dots in each column. Of course, this works to find the decimal expansion too, or just a remainder after the whole.

Is there a way to buy the ebook without subscribing monthly?

This only works well i some rare situations, usually this method causes problems. You might run out of dots or end up having extra dots that can't be used, but these cases can be solved by ruling out one dot in one column and then drawing 10 dots in the next column (because dots in the last column represent ones, dots in the second last column tens etc.) With x, it will be a hard time though and I don't know how to solve it for polynomials. So this method is quite impractical, but it's nice to see a fun and different way for dividing numbers.

How do we use that tecnic for a problem like this:
56.088 / 456 = ?
How can we do that?

This method just blew my mind away. I sorta get it, but it's still confusing me alot.

THANK YOU SO MUCH!!!!!!!!!

You must mention the limitation of this method. ...

i am confuse how i match the dots because u connect sometime vertically or sometime horizontally.

Why did you stop in your first example? By your method, shouldn't it be 110,200?

What about 133,343...How would something like that be handled?

Yes but what if you have to connect more than 2 dots? 3 dots? 4? How/where do you connect those?

Tq so much for this method

Or you just take the good old fashioned method of multiplying the denominator with 10^x where x is the length of the numerator -denominator. In this case 121*10^(6-3) subtract that from the numerator and repeat until you got an answer.
This works because a Division is multiplicative Subtraction.

I'm intrigued...
I'm home dealing with pains from different medical issues. The constant pains cause other issues, such as confusion, etc.
I asked Google to give me a random 6 digit number so I could try this on my own. Google provided me with, "970,010". 🤯 Immediately I knew that I was SCREWED! 🤕 Then I chose to divide it by, "151". 😱😖

How do you connect the dots that way. Do you try to make it s T shape or what

Hi you are the bestest person ever

Better Explaining a Bit More
Illustrate with More Examples and the rule to Connect the Dots