Answer:
B) $90,000
Explanation:
The market value of the unlevered equity can be calculated using the following formula:
Expected value = Σpx
Where:
p = the probability of each outcome
=50% in this case for both weak and strong economy.
x = the present value of cash flow for each outcome which is $90,000 in case of weak economy and $117,000 in case of strong economy.
Expected value= 0.50(90,000(1+15%)^-1)+0.50(117,000(1+15%)^-1)
=0.50(78,260.87)+0.50(101,739.13)
=$90,000
So the answer is B) $90,000
Answer:
high school diploma
Explanation:
I don't know the context but it for a bachelor's degree you would need to enter with a high school diploma or GED (in the United States and maybe Canada)
Answer:
$3,762
Explanation:
The computation is as seen below
Total cost when the production is 9,900 units
Direct materials $8,316
Direct labor $11,187
Variable overhead $12,474
Total $31,977
But,
Their new cost on supplier offer is
= $2.85 × 9,900 units
= $28,215
In the case when the order is accepted, the net income would increase by
= $31,977 - $28,215
= $3,762
Employment Discrimination Law, <span>Civil Rights Law</span>
Answer:
The thief has a 0.11% probability of hitting the pin code on the first try.
Explanation:
Simply, if the ATM card has a 3-digit code that can be repeated, and the board has 9 numbers (for example, from 1 to 9), we must start from the smallest number that could be formed with these numbers to the highest number that these numbers could also compose, which in the case would be 111 and 999. Then, 889 different numbers could be formed (it is the distance between 111 and 999), with which the possibility of hitting the key to the first attempt would be 1 in 889 times, or 1/889.
To take the probability to a percentage, we must know that 889 / 8.89 gives 100. Therefore, dividing 1 / 8.89 we will know the percentage of probabilities of hitting the key on the first attempt: 1 / 8.89 = 0.11.
This shows us that the thief has a 0.11% probability of hitting the key on the first try.
