Answer:
It should be greater than $36
Explanation:
The opportunity cost of working is the amount of money sacrificed or could have earned if the individual was not working. In this case, Claire has decided to go with her friend which means that the opportunity cost of not working is less than the benefits receives from going out. Because she is not working it means that the opportunity cost of working is more than 36 dollars, which is the income she could have earned in 3 hours.
Answer:
The answer is 5.73%
Explanation:
Given Coupon rate=5.5%; Years of maturity= 12years, Face value bonds= $1,000, Price=98.2
NPER= Years of maturity *2= 12*2=24
PMT= (Face value * coupon rate)/2= (1000*5.5)/2= 5500/2= 2.75
Therefore:
Rate = (NPER, PMT, -Price, Face value)= (24, 2.75, -98.2, 1000)= 2.87%
Yield to maturity= Rate *2= 2.87*2= 5.73%
Savings accounts . . .
interest rates are most determined by the state of
the national economy.
Mutual funds . . .
Treasury bills . . .
traded on nationwide exchanges; prices and returns
are pretty uniform nationwide.
Real estate . . .
rests directly on local conditions in each city, and sometimes even in
different parts of the same city;
affected by things like local unemployment, local bad weather,
local price of gas, local tourism, local special events, etc.
The correct answer is B. A debit to common stock distributed.
<em>The entry will be stock dividends debit, paid-in capital which is in excess per common credit stock, stock dividends which are being distributed.</em>
In credit entry it records distribution and declaration of stock dividend which includes the debit to the retained earnings and also a credit to the common stock.
Answer:
Present value= $3,642,651.54
Explanation:
Giving the following information:
You have just won the lottery and will receive $530,000 in one year. You will receive payments for 25 years, and the payments will increase by 4 percent per year. The appropriate discount rate is 10 percent.
First, we need to calculate the final value using the following formula:
FV= {A*[(1+i)^n-1]}/i
A= annual payment= 530,000
i= 0.04 + 0.10= 0.14
n= 25
FV= {530,000*[(1.14^25)-1]}/0.14
FV= 96,391,538.43
Now, we can calculate the present value:
PV= FV/(1+i)^n
PV= 96,391,538.43/ (1.14^25)
PV= $3,642,651.54
