Answer:
Option D All of the above statements are correct.
Explanation:
The solution of the issue is software integration and making flow of information on timely basis across the company. The recommended solutions given in the question are correct because:
- Establishing a lockbox arrangement is similar to having a single company bank account. This means that the company will have a confirmation from the bank that the payment is received by the bank from customers.
- The remittance advice sent with payment helps to solve the misunderstanding, assist in recording transaction to keep the system updated and provides resistance to fraudulent practice.
- The mailroom personnel who require mailing of trade receivable balance which the customers owe to company and trade payable balance which the company owes to suppliers. This avoids the company paying illegitimate amounts and receiving the amounts which the customers actually should pay to the company.
So all of the statements are correct.
Answer:
The final payment would be of amount $9000
Explanation:
The keywords of the question state that the bank needs an equal amount of money by both of the payment procedures. Hence, no matter which payment method I choose on the outstanding loan, the bank would need a sum of 3x3000 = $9000
Answer:
The situation is called insolvency. bank is unable to pay to depositor.
Explanation:
The situation is called insolvency. insolvency is refer to the situation when debtor is unable return its debt. The same is happened in the given situation. In the above case due to not paid by manufacturing unit, bank is unable to pay to depositor.
Insolvency is refer to that critical condition when debtor unable to pay amount to depositor. In the above given case even if bank want to sell its all assets it cannot cover its liabilities.
I think your answer should be c. Hope this helps. :)
Answer:
The expected excess return will be 11.4%
Explanation:
The S&P 500's excess return is the market return (rM). Using the CAPM model or the SML approach, we can calculate the required/expected rate of return on the stock we are investing in.
The expected rate of return is,
r = rRF + β * (rM - rRF)
Thus, return on the invested stock will be:
r = 0.03 + 1.2 * (0.1 - 0.03)
r = 0.114 or 11.4%
