Answer:
P = x³ − 9x² + 36x − 54
Step-by-step explanation:
Complex roots come in conjugate pairs. So if 3−3i is a zero, then 3+3i is also a zero.
P = (x − 3) (x − (3−3i)) (x − (3+3i))
P = (x − 3) (x − 3 + 3i) (x − 3 − 3i)
P = (x − 3) ((x − 3)² − (3i)²)
P = (x − 3) ((x − 3)² + 9)
P = (x − 3)³ + 9 (x − 3)
P = x³ − 9x² + 27x − 27 + 9x − 27
P = x³ − 9x² + 36x − 54
The vertices of the feasible region are: (0, 0), (0, 3), (1.5, 3.5), (5, 0)
For (0, 0): C = 6(0) - 4(0) = 0
For (0, 3): C = 6(0) - 4(3) = -12
For (1.5, 3.5): C = 6(1.5) - 4(3.5) = 9 - 14 = -5
For (5, 0): C = 6(5) - 4(0) = 30
Therefore, the maximum value of the ob jective function is 30.
Answer:
The answer would be C
Step-by-step explanation:
the distance would be how far the two domains are from each other, therefore they are both added together
1. I have 5 times some number of shoes. I give 10 away and now have 40. How many shoes did I originally start with?
2. I have 3 times some number of apples. I get 4 more apples. What amount of apples did I originally<span> start with? </span>
