Answer:
The answer is 9.00%
Explanation:
real risk-free rate = 3.00%
average expected future inflation rate = 5.90%
Maturity risk premium = 0.10%
The expected rate of return on a 1 year treasury security would be = the average expected future inflation rate + maturity risk premium + real risk-free rate.
= 3.00% + 5.90% + 0.10%
= 9.00%
Answer:
Tha annual effective yield rate for the bond is:
= 6.2%
Explanation:
a) Data and Calculations:
Bond par value = $1,000
Annual coupon rate = 6%
Annual spot interest rates = 7%, 8%, and 9% for year 1, year 2, and year 3 respectively
Current value of bond = $970 ($1,000 * 99% * 99% * 99%)
Annual coupon payments = $60 * 3 = $180
Effective rate for the three years = $180/$970 * 100 = 18.6%
Annualized effective yield rate = 6.2% (18.6%/3)
OR
Annualized effective yield rate = (Annual coupon payments/Current value of bonds)
= 6.2% ($60/$970)
Answer:
The correct choice is C)
The most logical thing to do would be to calculate the value of the stock in 5 years time.
Explanation:
This speaks to ones understanding of dividend growth stock valuation models. These tools are used to establish a fair value for a stock by discounting the present value of its future dividends. A commonly used model is the constant growth dividend discount model.
The formula for the DDM, which assumes constant growth in dividends, is provided below.
P0 = D1/(r-g)
Where,
P0 = intrinsic value of stock
D1 = dividend payment one year from today
r = discount rate
g = growth rate
Identifying the correct answer entails establishing a timeline of the expected cash flows. We are given the following information:
t0 = $0
t1 = $0
t2 = $0
t3 = $0
t4 = $0
t5 = $0.20
t6 = $0.20 * 1.035
Given a rate of return, we could use the constant growth dividend discount model to establish the fair value of the firm at t5 (five years from today). Incidentally, to determine today's value, we'd discount it back another five years.
Based on the information above, we are able to prove that the answer is '5'.
Cheers!
Answer:
0.0084
Explanation:
For this probability problem, we will have to make use of the normal probability distribution table.
to use the table, we will have to compute a certain value
z = (x- mean) /Standard deviation
z = 
= 2.39
Probability he has worked in the store for over 10 years can be obtained by taking the z value of 2.39 to the normal probability distribution table to read off the values.
<em>To do this, on the "z" column, we scan down the value 2.3. we then trace that row until we reach the value under the ".09" column. </em>
This gives us 0.99916
Thus we have P (Z < 2.39) = 0.9916
We subtract the value obtained from the table from 1 to get the probability required.
1 - 0.9916 = 0.0084
The Probability that the employee has worked at the store for over 10 years = 0.0084
Life guarding is a really good first job for high school students. Start applying to local pools or water parks, whatever you have in your area. I live in vegas and hotels are always looking for lifeguards around this time
