Hi Destyox!
I don't this it's possible, but I'm not sure.
(a+b+c)^2 = a^2 + b^2 + c^2 + 2ab + 2bc +2ac
And if sqrt(x) = a, sqrt(y) = b, sqrt(z) = c, it doesn't check out.
10^2 != 38 + 60
However, I'm not sure if this is a valid method.
I hope this helped. :)))
=^._.^=
We're going to find the average of everything. (2+4+3)/3 = 3 (1/2 + 1/4 + 1/3)/3 = 13/36.
So our center is (3, 13/36)
We only need to focus on the last digit.
7^(654321)
note that the last digit repeats 7, 9, 3, 1
654321/4 has a remainder of 1.
The first digit in the sequence 7, 9, 3, 1 is 7.
So the answer is 7.
5(3.4) + 1(2.3) = 19.3
So, he spent 19.30 on rentals in the past month.
I love your profile picture.
It's really pretty.
We're looking for the average, or the 3rd term .
At the third day, she's collected 8+7+7 = 22
So 22 is our answer.
A cool pattern is that it's the square, so the first n terms is n^2.
sqrt(144) = 12
So 12 = n.
:))
I think it would be 4^4 since you can have them all different too. So for colour you can have red, purple, green, or all different.
Awww, thank you. :D
A even number will have a factor of 2, and any number with 2 as a factor will be even.
So if your multiply a number with another number that has the factor 2, it'll also have the factor 2, making it even.
So if a even number has the factor 2, then if it's squared it has the factor 2^2 = 4, meaning that it's a multiple of 4.
