Sn = n2
S12 = 122 = 144.
If S(n) is defined as the function that squares numbers, then S(n) = n². Therefore, to find S(11), we calculate S(11) = 11² = 121. Thus, S(11) equals 121.
The numbers are 7 and 6
The square of 13 is (169) and the square of 14 is (196). To find the numbers that lie between these two squares, we consider the integers from (170) to (195). There are (195 - 170 + 1 = 26) integers in that range. Thus, there are 26 numbers that lie between the squares of 13 and 14.
169 = 144 + 25, so your numbers are 12 & 5.
12.56
121
169
144
169
Sum of squares? Product?
They are the squares of the numbers 1 to 31. Use a calculator to find them.
38.5
5x²=0 X=0 the function y=5x² only intercepts x when x = 0
I have no idea. That is why I am 'googling' this to find out.
Every odd number greater than one is the difference of two squares. This includes all the odd prime numbers. To find the two numbers whose difference of squares equals a particular odd number, divide the odd number by 2. The two numbers are the integers immediately below and above that dividend. For example, 17 is the difference of two squares. Divide 17 by 2 and get 8.5. The two numbers are 8 and 9. 92 - 82 = 81 - 64 = 17.
The numbers are 7 and 6
It equals to 20580 squares fit. Multiplication of both the dimensions is done to find out the area.