There are 22 of those. The biggest one is the square of 22, which is 484.
It's easy for you to build your own list of all of them.
-- Write down a list of the numbers from ' 1 ' to 22 .
Then, one at a time . . .
-- Multiply the number on your list by itself, and write the result next to it.
-- When you finish doing that for all 22 numbers, you'll have the list of
all square integers up to 500.
The numbers would be odd, from one to seventeen.
134 (squared = 17,956) and 12 (squared = 144) or 132 (squared = 17,424) and 26 (squared = 676)
37
16 and 64. 16 is 4 squared. 64 is 8 squared.
Sum of first n numbers = n/2(n +1) = 500 x 1001 = 500500
There is an infinite number of prime numbers after 500!
The sum of the first 500 odd numbers is 250,000.
The numbers would be odd, from one to seventeen.
The two square numbers which add up to 13 are 9 (which is equal to 3 squared), and 4 (which is equal to 2 squared).
134 (squared = 17,956) and 12 (squared = 144) or 132 (squared = 17,424) and 26 (squared = 676)
4*5*5*5 = 500
37
There are 417 of them and it would take too long to list them all. You could draw up a list of all 500 numbers and then delete each multiple of 6. There are 83 of them.
There are no two whole numbers which when squared sum to 62. There are infinitely may pairs of irrational numbers that when squared sum to 62, eg 1 and √61, 2 and √58
Oh, dude, you're hitting me with some math here. So, let's break it down - we need two numbers that, when squared, add up to 10. Well, 1 squared is 1, and 3 squared is 9, so 1 and 3 are the numbers you're looking for. But hey, who's really keeping track of all these numbers anyway, right?
16 and 64. 16 is 4 squared. 64 is 8 squared.
The positive integer cubed numbers up to 500 are: 13 = 1 23 = 8 33 = 27 43 = 64 53 = 125 63 = 216 73 = 343 The next cube number above 500 is: 83 = 512