Answer:
It is 16.9
Explanation:
Operating cycle = Inventory turnover + Receivable turn over - payable turnover
Hence, Operating cycle = 7.3+9.6
=16.9
Operating cycle implies how long it takes us to convert entire production process to cash .
It has an direct relationship with the level of working capital required. The higher the operating cycle, the higher the working capital investment required to keep the operation running.
A cash driven businesses like restaurant which hardly sell on credit will certainly have shorter operating cycle compared to a manufacturing company.
Answer:
a) $2000
b) $1,886.7925
C) $2,036.7925
Explanation:
First, the question states to determine the expected claim cost per policy
Expected Claim Cost represents the fund required to be paid by an insurer for a particular contract or a group of contracts as the case maybe. This is usually based on the policy taken.
A) Expected Claim Cost per policy
= (Policy Loss Value A x its probability) + (Policy Loss Value B x its probability) + (Policy Loss Value C x its probability)+(Policy Loss Value D x its probability)+ (Policy Loss Value E x its probability)
= ( (100000 x 0.005 )+ (60000 x 0.010) + (20000 x 0.02) + (10000 x 0.05) + 0 = $2000
Part B: discounted expected claim cost per policy
Since, the sum of $2000 is expected to be paid by the insurer by the end of the year, the interest to be earned based on the rate (discounting used)
=$2,000 ÷ (1 + 0.06)
= $1,886.7925
Part C:: Determine the Fair Premium
Fair Premium is calculated as follows
The discounted policy claim cost + the Processing Cost per application + The fair profit loading
= $1,886.7925+ $100+50 = $2,036.7925
Decrease, cut, halt, slow down.
Having a good credit score
Answer:
Price of the Bond is $868.82
Explanation:
Market Value of the bond is the present value of all cash flows of the bond. These cash flows include the coupon payment and the maturity payment of the bond. Price of the bond is calculated by following formula:
Market Value of the Bond = C/2 x [ ( 1 - ( 1 + r/2 )^-2n ) / r/2 ] + [ $1,000 / ( 1 + r/2 )^2n ]
Whereas
C = coupon payment = $110.00 (Par Value x Coupon Rate)
n = number of years = 7
r = market rate, or required yield = 14% = 0.14
P = value at maturity, or par value = $1,000
Price Value of the Bond = $110/2 x [ ( 1 - ( 1 + 14%/2 )^-2x7 ) / 14%/2 ] + [ $1,000 / ( 1 + 14%/2 )^2x7 ]
Price Value of the Bond = $55 x [ ( 1 - ( 1 + 7% )^-14 ) / 7% ] + [ $1,000 / ( 1 + 7% )^14 ]
Price of the Bond = $481.0+$387.82
Price of the Bond = $868.82
