Answer:
The payment after 1 year will be
F=P(1+i)^n
n=1 year
P=100,000
F=100000(1+0.09)
F=109000 after 1 year
interest=9/100*100000=90000
exceeded payment=109000-90000=19000
The complete question is:
Expected monetary value (EMV) is
A) the average or expected monetary outcome of a decision if it can be repeated a large number of times.
B) the average or expected value of the decision, if you know what would happen ahead of time.
C) the average or expected value of information if it were completely accurate.
D) the amount you would lose by not picking the best alternative.
E) a decision criterion that places an equal weight on all states of nature.
Answer:
the average or expected monetary outcome of a decision if it can be repeated a large number of times.
Explanation:
Expected monetary value is how much money a business forecast it will gain by making a decision. It is based on probability and becomes more complicated as you get more complex scenarios.
For example if a party is taking another to court the EMV is the realistic estimate of what the party can gain in settlement at court.
The expected monetary value should be replicable, that is if the decision is taken many times it should result in an average of the EMV amount.
Answer:
7% annually
Explanation:
Yield to maturity is the annual rate of return that an investor receives if a bond bond is held until the maturity. It is the long term return of the bond which is expressed in annual term.
Face value = F = $1,000
Coupon payment = $1,000 x 8.4% = $84/2 = $42 semiannually
Selling price = P = $1,043
Number of payment = n = 3 years x 2 = 6
Yield to maturity = [ C + ( F - P ) / n ] / [ (F + P ) / 2 ]
Yield to maturity = [ $42 + ( $1,000 - $1,043 ) / 6 ] / [ ( $1,000 + $1,043 ) / 2 ]
Yield to maturity = [ $42 - 7.16 ] / $1,021.5
Yield to maturity = 0.0341% = 3.41% semiannually = 6.82% annually
Rounded off to whole percentage 7%
Answer:
$3,621.8
Explanation:
Given the above information, first, we will calculate the ;
Variable manufacturing overhead = $5.00 × 100 = 600
Then, the total fixed manufacturing overhead = $174,000
Total costs = $690 + $5,800 + $600 + $174,000 = $181,090
Unit product cost = $181,090/50
Unit product cost = $3,621.8