Answer:
anything below 40 is right, so it's A
Answer:
e. decrease its level of table production
Explanation:
MC = 200.
Market price = 150 which cannot be changed by any firm.
MC is greater than price = MR then in order to maximise profit MR has to be equal to marginal cost
MC has to be decreases to $150 which is possible only when it reduces output.
to maintain to form and function so A
Solution:
1 : The interest rate that fits the lifetime cash flows to the PV of cash flows is expected here.
PV of an equation of perpetuity:
PV = C/ r
$326,000 = $3,000 / r
With the interest rate, we could now solve the following:
r= $3,000 / $326,000
r= 0.0092 or 0.92% per month
2 :The interest rate per month is 0.92 percent.
In order to calculate the APR, the number of months in a year is determined by:
APR = (12) 0.92%
APR = 11.04%
3 : And using the equation to find the EAR, we find:
EAR = [1 + (APR / m)]m– 1
EAR = [1 + 0.0092]12– 1
EAR = 0.1162 or 11.62%
Answer:
7.53%
Explanation:
Calculation for the discount rate of d(0,4)d(0,4)
The discount factor is : d=1/1+i
And given that the interest rates are compounded annually the discount factor will gives the present value of the bond when provided with the interest rate and maturity value.
Therefore the present value of a bond with a maturity value of 1 will be;
Present value=1 /(1+i1) (1+i) (1+i3) (1+i4)
Present value=1 / (1.07) (1.073) (1.077) (1.081)
Present value=0.748
The present value of a bond with a maturity value of 1 will therefore be 0.748.
Now, let calculate the discounting factor for the whole 4 years:
1 (1+d (0,4))‐⁴ =0.748
(1+d(0,4))=0.748‐¹/⁴
1+d (0,4) =1.0753
d (0,4)=0.0753
Therefore the discount rate will be 7.53%
