Answer:
Ans. He must save during each of the following 10 years, at the end of each year $32,452.
Explanation:
Hi, in order to find the amount of money that he should have in ten years so he can receive an annual payment of $65,156 for 25 more years (24 payments), we need to bring to present value all 24 payments to year 10. Let me show you the formula.
Where:
A= $65,156
n= 24
r= 0.08
Therefore the present value in year 10 is:
So that is our present value in year 10, or to put it in other words, our future value (if we look at it from year 0). Now we need to find the annuity (amount to save) that with account for $686,012, plus that $100,000 that he already has saved.
Every should look like this.
And we solve this equation for "A".
Best of luck.
Ashley is not happy. (is this the full question?... it looks like it is missing the last sentence
Answer:
19.50%
Explanation:
In this question, we apply the Capital Asset Pricing Model (CAPM) formula which is shown below
Expected rate of return = Risk-free rate of return + Beta × (Market rate of return - Risk-free rate of return)
For Stock R
= 3% + 2.5 × (13% - 3%)
= 3% + 2.5 × 10%
= 3% + 25%
= 28.00%
For Stock S
= 3% + 0.55 × (13% - 3%)
= 3% + 0.55 × 10%
= 3% + 5.5%
= 8.50%
The difference would be
= 28% - 8.5%
= 19.50%
Answer:
The remaining part of the question is:
A) clan culture.
B) goal-driven agenda.
C) adhocracy culture.
D) market culture.
E) focused approach.
Correct Answer:
D) <u>market culture.
</u>
<u></u>
Explanation:
His suggestion of his research and development team to develop innovative products for the emerging changes in markets for his customers shows that, Jacuzzi Warehouse has a market culture.
Answer:
b. $102
Explanation:
Data provided as per the question below:-
Cost of basket in 2014 = $51
Cost of the basket in base year = $50
The calculation of the value of the CPI is shown below:-
Value of the CPI = (Cost of a basket in 2014 ÷ Cost of a basket in the base year) × 100
($51 ÷ $50) × 100
= $102
Therefore for computing the value of CPI we simply applied the above formula.