Answer:
Expected Net Cash Flow = $3.8 million
Net Present Value (NPV) = $1.0492 million
Explanation:
Given Cash outflow = $10 million
Provided cash inflows as follows:
Particulars Good condition Moderate condition Bad Condition
Probability 30% 40% 30%
Cash flow $9 million $4 million $1 million
Average expected cash flow each year = ($9 million X 30 %) + ($4 million X 40%) + ($1 million X 30%) = $2.7 million + $1.6 million + $0.3 million = $4.6 million
Three year expected cash flow = ($4.6 million each year X 3) - $10 million = $13.8 million - $10 million = $3.8 million
While calculating NPV we will use Present Value Annuity Factor (PVAF) @12% for 3 years = 
NPV = PV of inflows - PV of Outflows = $4.6 million X 2.402 - $10 million = $11.0492 million - $10 million = $1.0492 million
Expected Net Cash Flow = $3.8 million
Net Present Value (NPV) = $1.0492 million
Answer:
The answer is "Option b".
Explanation:
In this scenario, the second option, which would be the percentage within each transaction that's also interest instead of the full amount, would've been lower if the rate of interest were lower because interest-related transactions would have been higher at lower rates and conversely, as opposed to the main refunds.
Umm... I can't find the choices... So, those are the choices I made up that are correct to your question.
- Spills covering grounds or falling hazards, such as blocked paths or cords going over the ground.
- Working from heights, including ladders, scaffolds, roofs, or an elevated workspace.
- Unguarded device and moving machine pieces; guards dismissed or moving pieces that a worker can unintentionally touch.
Answer and Explanation:
The computation is shown below:
a. As a premium expense
= ($0.460 - $0.44) × 695,000
= $13,900
b. As a difference of 3 months spot rate and spot rate
= ($0.455 - $0.44) × 695,000
= $10,425
The first one represents the premium expense for $13,900 and the second part represents the adjustment to the net income in a positive way
