Respuesta :
Answer:
The EMV for option a is $5,679,100
The EMV for option b is $5,719,200
Therefore, option b has the highest expected monetary value.
Explanation:
The EMV of the project is the Expected Money Value of the Project.
This value is given by the sum of each expected earning/cost multiplied by each probability.
So
a) proceeding immediately with production of a new top-of-the-line stereo TV that has just completed prototype testing.
There are these following probabilities:
77% probability of selling 100,000 units at $610 each.
23% probability of selling 70,000 units at $610 each.
So
[tex]EMV = 0.77*E_{1} + 0.23*E_{2}[/tex]
[tex]E_{1} = 100,000*610 = 6,100,000[/tex]
[tex]E_{2} = 70,000*610 = 4,270,000[/tex]
[tex]EMV = 0.77*E_{1} + 0.23*E_{2} = 0.77*(6,100,000) + 0.23*(4,270,000) = 5,679,100[/tex]
(b) having the value analysis team complete a study.
There are these following probabilities:
74% probability of selling 85,000 units at $720.
26% probability of selling 70,000 units at $720.
The cost of value engineering, at 120,000. So this value is going to be dereased from the EMV.
[tex]EMV = 0.74*E_{1} + 0.26*E_{2} - 120,000[/tex]
[tex]E_{1} = 85,000*720 = 6,120,000[/tex]
[tex]E_{2} = 70,000*720 = 5,040,000[/tex]
[tex]EMV = 0.74*E_{1} + 0.26*E_{2} - 120,000 = 0.74*6,120,000 + 0.26*5,040,000 - 120,000 = 5,719,200[/tex]
