<span>Business/Financial manager </span>assumes responsibility for monitoring how the contractor is doing in terms of cost, schedule, and technical performance
Before a company start its operation for the year, the executives of that company will determine the budget that seem appropriate for all fo the operations.
The duty of business/financial manager is to make sure that the cost of operations do not exceed that pre-determined budget
Answer: b. Sales Returns, Wages, Machinery, Discount Allowed
Explanation:
Sales returns reduce the sales made. Sales are put on the credit side so transactions that will reduce sales such as sales returns would have to go on the debit side.
Wages are an expense and expenses are debited to show they are increasing so they have a debit balance.
Machinery is an asset and assets have debit balances.
Discount allowed reduces the sales balance and as mentioned above, transactions that reduce sales go on the debit side so this has a debit balance as well.
Answer:
Statement B is correct.
Explanation:
High Operating Leverage represents higher fixed cost in comparison to variable cost, and thus that means the company will get its break even earlier or we can say with low units, but after break even profits will be higher.
As in the given case Firm A has higher Operating Leverage than Firm B, thus Firm A has lower Break even point but eventually its profit after reaching break even will grow higher.
Thus, Statement B is correct
Answer:
Value of the bond = $862.013
Explanation:
The value of the bond is the present value of the future cash receipts expected from the bond. The value is equal to present values of interest payment and the redemption value (RV).
Value of Bond = PV of interest + PV of RV
The value of the bond can be worked out as follows:
Step 1
<em>Calculate the PV of Interest payment
</em>
Present value of the interest payment
PV = Interest payment × (1- (1+r)^(-n))/r
Interest payment = $40
PV = 40 × (1 - (1.05)^(-12×2)/0.05)
= 40 × 13.7986
= 551.945
Step 2
<em>PV of redemption Value
</em>
PV of RV = RV × (1+r)^(-n)
= 1000 × (1.05)^(-12×2)
= 310.067
Step 3
<em>Calculate Value of the bond </em>
= 551.94567 + 310.067
=862.01
Value of the bond = $862.013
Answer:
At the growth rate of 3% per year
Number of years taken to double the GDP = 23.33 years
The the GDP will double ( 23.33 - 20 ) 3.33 years earlier at 3.5% growth rate
Explanation:
According to the rule of 70
Number of years taken to double the GDP = 70 ÷ [ Growth rate ]
Thus,
At the growth rate of 3% per year
Number of years taken to double the GDP = 70 ÷ 3
= 23.33 years
Further
if the growth rate is 3.5% per year
Number of years taken to double the GDP = 70 ÷ 3.5
= 20 years
Hence,
The the GDP will double ( 23.33 - 20 ) 3.33 years earlier at 3.5% growth rate
