N x N + 1 = answer
※ ive yet to figure it out myself
What happen to the number of dots per unit area as the distance of dots go farther from the center
The total number of dots on two dice - is 42.
By taking the number and setting it to the amount of the other number. Like if you have 3 eggs with 4 dots on them, then all together you have 12 dots. But if you wish to find how many eggs have dots and there are actually 5 eggs, because 2 did not have dots, then you'll know there are 3 eggs with dots on them.
ok first i is bar(-)=(-) over 100 so forget about the dots there are ther to fill
the four dots stand for loyalty respect truth love
The most dots I have seen on a single domino is 24 (double twelves) and a baker's dozen is 13, so I would say 37, but most dominos just have 12. I am guessing that the answer would be 25. ■
its a segment
To check if your number is a square number, draw little dots. like, for 4 it will 2 dots by 2 dots. if this doesn't work equally, it is not a square number.
Difference of two squares.
※ ive yet to figure it out myself
it means that it goes on and on and on for example 1,2,3,4,5 etc...
I can't give a good way to remember prime numbers based on their name, but for square numbers, you can just remember it as a figure: You can think of numbers as a collection of dots, so 1 = * 2 = * * 3 = * * * etc. Now, if you form a square with n dots on the side, the number of dots in the square will be n^2. This is why they are called "square numbers". For instance: 1^2 = 1 * 2^2 = 4 * * * * 3^2 = 9 * * * * * * * * * etc. So the number n^2 is the number of dots in the square with n dots on each side. The ancient Greeks were into this kind of representation of numbers and devoted much study to what are called "figurate numbers", meaning "numbers that can be represented by a figure". In particular, they looked at triangular numbers, rectangular numbers, and pentagonal numbers, in addition to what I just showed you with square numbers. Getting back to your original question, remember square numbers as the number of dots in a *square* of dots. As for primes, if you are having issues with only primes and squares, just remember it as "not square numbers".
a square number is called a square number because there are 4 corners in a square, therefore the number is added 4 times. this equals to the square number. (another way to look at it. ) The area of square of side s is s2 and if s is an integer the area of such a square is s2 and a square number is therefore a number that is an area of some square with an integer side. Another idea is to draw a series of pictures with dots, each time adding one more row and one more column . 1 by 1 = 1 dot . . 2 by 2 = 4 dots . . . . . 3 by 3 = 9 dots . . . . . . . . . . 4 by 4 = 16 dots . . . . . . . . . . . . and so on... If you go on with this pattern, every square number with be the number of dots in some figure and vice-versa and the patterns are all squares.
It would get dots on the screen if it had not been cleaned properly.
What happen to the number of dots per unit area as the distance of dots go farther from the center
The total number of dots on two dice - is 42.