Those numbers would be 13 and 8.
13 squared + 8 squared
This is equal to:
169 + 64 which equals 233
And finally, 13 - 8 equals 5.
There are an infinite amount of numbers that that have squares between 10 and 65
5
The sum of their squares is 10.
Infinitely many, since every positive number is a square of some other number. However, there are 21 perfect squares (SQUARES OF INTEGERS). From 112 to 312, inclusive.
it is a triangle with circles at the corners, and squares in the middle of the corners. The squares have numbers in them, and you have to put numbers in the circles. However, the numbers in the circles have to add up to the number of the square between them. Simple, right?
They are 8 and 13.
Difference between the sum of the squares and the square of the sums of n numbers?Read more:Difference_between_the_sum_of_the_squares_and_the_square_of_the_sums_of_n_numbers
The numbers are 21 and 24. 576 - 441 = 135
There are an infinite amount of numbers that that have squares between 10 and 65
5
All positive integers which are not perfect squares.
GFYM
The integers are 4 and 9, so the equation would be 16+81=? and 16+81=97
5
There is just a space between the squares, if they are representing numbers or letters then the first one could be two words or numbers and the other is one.
The sum of the squares of the first 100 natural numbers [1..100] is 338350, while the sum of the first 100 natural numbers squared is 25502500.
The numbers are 5 and 6.