Answer:
Option (D) is correct.
Explanation:
1.We use the formula:
where
A=future value
P=present value
r=rate of interest
n=time period.
![A=1,060[(1.12)^{2}+(1.12)^{1} + 1]](https://tex.z-dn.net/?f=A%3D1%2C060%5B%281.12%29%5E%7B2%7D%2B%281.12%29%5E%7B1%7D%20%2B%201%5D)
= 1,060 [1.2544 + 1.12 + 1]
= 1,060 × 3.3744
= $3,576.864
Therefore, the amount of $3,576.864 will Ashley have to buy a new LCD TV at the end of three years.
(b) Future value of annuity due = Future value of annuity × (1 + interest rate)
= $3,576.86(1 + 0.12)
= $3,576.86 × 1.12
= $4,006.08
She will save around $4,006.08
the answer would be 14 days
Most vegetables substantially diminish in quality in as little as 14 days.
Answer:
Operating activities
Investing activities
Financing activities
Explanation:
In a cash flow statement, the activities of the organization are usually recognized in 3 parts namely; Operating activities, investing activities and financing activities.
The operating activities include elements such as net profit, non cash items, change in current assets and liabilities.
The investing activities include cash flows from the disposal and purchase of assets etc
The financing activities includes cash flows from the disposal and sale of shares etc.
The net cash flows from these activities is the netted off the cash balance at the beginning of the period to get the cash balance at the end of the period.
Hence the order of presentation of activities on the statement of cash flows is
Operating activities
Investing activities
Financing activities
Answer:
The amount to be paid for the contract today = $220,908.32
Explanation:
<em>The amount to be paid for the contract today will be equal to the present value of the annuity of $22,500 payable for 20 years discounted at a rate of 8% per annum.</em>
Present Value = A ×( 1 - (1+r)^(-n))/r
A- 22,500, r- rate of return - 8%, n -no of years 20 years
PV = 22,500 ×( 1-(1.08)^(-20) )/ 0.08
PV = 22,500 ×9.8181
PV = $220,908.32
The amount to be paid for the contract today = $220,908.32
Answer:
11.2 containers
Explanation:
The computation of the number of kanban connectors needed is given below:
= (Lead time demand + Safety stock) ÷ Container size
where,
Demand during Lead time demand is
= 1,400 units × 3 days
= 4,200 units
Container size = 500 connectors
Safety Stock is
= 1 day × 1,400 units
= 1,400 units
So, the number of kanban connectors needed is
= (4,200 units + 1,400 units) ÷ (500 units)
= 11.2 containers
We simply used the above formula
