(1,2)
The solution is where the lines intersect so you can see they intersect at (1,2)
Answer:
Given definite integral as a limit of Riemann sums is:
Step-by-step explanation:
Given definite integral is:
Substituting (2) in above
Riemann sum is:
Answer:
Step-by-step explanation:
The multiplicative inverse of a complex number y is the complex number z such that (y)(z) = 1
So for this problem we need to find a number z such that
(3 - 2i) ( z ) = 1
If we take z =
We have that
would be the multiplicative inverse of 3 - 2i
But remember that 2i = √-2 so we can rationalize the denominator of this complex number
Thus, the multiplicative inverse would be
The problem asks us to verify this by multiplying both numbers to see that the answer is 1:
Let's multiplicate this number by 3 - 2i to confirm:
Thus, the number we found is indeed the multiplicative inverse of 3 - 2i
Answer:
65
Step-by-step explanation:
If 2 angles are provided add them and subract that from 180