Answer:
B
Step-by-step explanation:
B: 1 = 3×1 -2 = 1
4 = 3×2 -2
True is the answer I’m pretty sure
Answer:
M(B(h))=78.18025h
Step-by-step explanation:
First we have the following equations:
L(h) = 28.75h eq. 1
B(L) = 1.78L eq. 2
M(B) = 1.43B eq. 3
To find the selling price based on the estimated number of hours, we need to start replacing equation 1 in equation 2 as:
B(L) = 1.78*B
B(L(h)) = 1.78*(28.75h)
B(L(h)) = B(h) = 51.175h eq. 4
Finally, if we weplace equation 4 in equation 3, we get:
M(B) = 1.43B
M(B(h)) = 1.43*(51.175h)
M(B(h)) = 73.18025h
So, the composite function that can be used to find the selling price for the labor portion of a bid based on the estimated number of hours is:
M(B(h)) = 73.18025h
Answer:
I believe answer B
Step-by-step explanation:
It says shifted UP 3 units and 2+3=5 so that is my answer. Feel free to yell at me if I am wrong.
Earnings (total) = $75 (bonus) + wt, where w are the hourly wages (a unit rate) and t represents the number of hours worke.
Example: John works 17 hours at $8.90 per hour.
John's wages will be $75 + ($8.90 / hour) (17 hours) = $75 + $151.30.
