This is impossible unless x and y are the same number
for example:
2^5 = 32
however
5^2 = 25
therefore it cannot be proved if its not correct.
thats wrong
ex . 3^2 = 2^ 3 is not correct
8
You have to know what x and y equals first!
if the x equals -1.2 and the y is -4, 4 what is the slope
Well you can find what it equals in terms of x. If you know that y plus y equals 25 to the power of 25 then you know that 2y=25^25 which means that y=(25^25)/2 - this is a huge number. To find x+y you just add x to what y equals so you get x+(25^25)/2
y=ax y'=ln(a)*ax
This is definitely false; if x=2 and y=3, x to the y power is 8, but y to the x power is 9, which are not equal.
999 and 1
8
if y = 2x then x = log2 y
You have to know what x and y equals first!
if the x equals -1.2 and the y is -4, 4 what is the slope
Yes, if x10=y.
Well you can find what it equals in terms of x. If you know that y plus y equals 25 to the power of 25 then you know that 2y=25^25 which means that y=(25^25)/2 - this is a huge number. To find x+y you just add x to what y equals so you get x+(25^25)/2
y=ax y'=ln(a)*ax
It is y = 0
Y=A+BX; X=machine hours. Sounds like a linear regression. 3x - y = 5 x + 3y = 5
Yes, it is a straight line