Answer:
C.second option
Explanation:
The computation is shown below
The present value of option 1 is $100,000
And, the present value of option 2 is
= $94,000 + $10,000 × Present value of discounting factor(8%,3)
= $94,000 + ($10,000 ÷ 1.08^3)
= $101,938.32
So as we can see that the option 2 has the highest present value so the right option is c.
Answer:
a. $20,000
b. $180,000
Explanation:
Par value per preferred share = $8
Dividend rate = 5%
Dividend per preferred share = $8 * 5% = $0.40
Number of preferred shares = 50,000
a. Total dividend amount distributed to the preferred shareholders this year = 50,000 shares * $0.40 = $20,000
b. The total dividend amount distributed to the common shareholders this year = $200,000 - $20,000 = $180,000
Answer:
B) Children’s clothing only
Explanation:
cost of the expansion $148,000
three mutually exclusive projects:
- NPV $221,000 for children’s clothing ≥ $148,000 (initial investment)
- NPV $178,000 for exclusive gifts ≥ $148,000 initial investment
- NPV $145,000 for decorator items ≤ $148,000 initial investment
The projects whose NPV is positive should be considered (this eliminates decorator items)
Since the projects are mutually exclusive, only one can be chosen. So the project with the highest NPV is the best project for the store ⇒ children's clothing
Answer: to a Director of Management Information Systems.
If Marianne, the payroll manager at Johnson manufacturing wants to upgrade the department's accounting systems, the person whom she would make the most sense to send her request for an upgrade is to a Director of Management Information Systems.
A Management information systems<span> (MIS) director contributes to growth in companies by improving information technology activities and computer resources. They also manage technical departments within an organization and ensure data is available, accurate and secure.</span>
Answer:
- 1. <em>For the amount to double</em>: <u>9.37 years</u>
- 2. <em>For the amount to triple</em>: <u>14.85 years</u>
Explanation:
The equation for continuosly compounded interest is:
Where:
- P is the amount that you invest today: $1,300
- F is the value after t years: the double or triple of $1,300
- r is the annual interest rate: 0.074
<u>1. For the amount to double:</u>
Substitute the values and solve for t:
<u>2. For the amount to triple:</u>
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