Answer:
Please see explanation below.
Explanation:
The next step is to conduct a secret ballot election which will be supervised by National Labor Relations Board (NLRB) as might be required by the employer-Champlain products inorder to obtain voluntary support from the employees that the union wants to represent. The reason being that the management might decided not to recognize the card checks practise on the basis that a union without a secret ballot election is not reliable hence employees that signed the card might have been intimidated or coerced by the union to do so.
Where the management refuses to recognize the card check that was signed by at least 41% of the employees it wants to represent, management would then request for secret ballot election where employees would be able to vote confidentially without coercion or undue influence from the union or co-workers.
Answer:
$11,560
$5666.661
Explanation:
Given the following :
Bill received from accountant = $17,000
This year's marginal tax rate = 32%
Next year's marginal tax rate = 37%
After tax return on investment = 11%
After tax cost of bill is paid in December :
Billed amount * this year's tax rate
$17,000 * ( 1 - 0.32)
= $17,000 * 0.68
= $11,560
B) After tax cost of bill was paid in January:
Billed amount * next year's tax rate * PV factor
From the present value factor table;
PV factor (1 years, 11%) = 0.9009
Hence,
$17,000 * 0.37 * 0.9009 = $5666.661
Answer:
Average annual rate of return should Louis expect to earn over the next four years is 10.7%
Explanation:
The formula we are going o use is:
Where:
R is the number of years over which Louis expect to earn.
N is the number of years of average arithmetic return.
i_{g} is the average geometric return=10.50%=0.105.
i_{a} is the average arithmetic return =11%=0.11.
Solution:
Average annual rate of return should Louis expect to earn over the next four years is 10.7%
Answer:
4.95%
Explanation:
For computing the yield to maturity when expressed in real terms, first we have to find out the yield to maturity by applying the RATE formula that is shown in the attachment
Given that,
Present value = $989.40
Future value or Face value = $1,000
PMT = 1,000 × 7% ÷ 2 = $35
NPER = 10 years × 2 = 20 years
The formula is shown below:
= Rate(NPER;PMT;-PV;FV;type)
The present value come in negative
So, after solving this, the yield to maturity is 7.15%
Now in real terms, it would be
= 7.15% - 2.2%
= 4.95%
