Answer and Explanation:
The preparation of the sales section of the income statement is presented below:
<u>Income Statement
</u>
<u>For the year ended </u>
Sales
Sales revenue $903,400
Less:
Sales Discount $15,400
Sales return & allowances $22,000
Net Sales $866,000
hence the net sales is $866,000
The freight out would not be considered. Hence, ignored it
Answer:
Avoidable costs
Explanation:
An avoidable cost is defined as one that an entity will not incur if a particular activity is not undertaken.
In business operations avoidable costs are usually variable costs. These are costs that vary or change in the cost of production. For example wages, cost of raw materials, and labour. These can be avoided depending on business needs.
Costs that are not avoidable are fixed cost. For example rent, insurance, and utilities.
These costs are paid wether production occurs or not.
Answer:
The marginal cost for producing the 101th unit is $100
Explanation:
The marginal cost can be defined as the cost of producing an additional unit of output. It can be traced by increasing the total output by one unit and tracing the change in the total cost as a result of this one unit increase in output.
The total cost of producing 100 units is $9000
The total cost of producing 101 units is $9100
The marginal cost of 101th unit is = Total cost of 101 units - total cost of 100 units
The marginal cost of 101th unit = 9100 - 9000 = $100
Answer:
The Porter Diamond model explains the factors that can drive competitive advantage for one national market or economy over another. It can be used both to describe the sources of a nation's competitive advantage and the path to obtaining such an advantage.
Answer:
Hersey's bond = $1125.513
Mars bond = $1172.259
Explanation:
Hersey bond;
Period(t) = 10years = 40(quartely)
Coupon (C) = $30
Rate (r) = 0.1 = 0.025(quarterly)
Pay at maturity(p) = $1000
Using the both present value (PV) and compound interest formula ;
PV =[ C × (1 - (1+r)^-t) ÷ r] + [p ÷ (1 + r)^t]
PV = [30×(1-(1.025)^-40)÷0.025] + [1000÷(1.025)^40]
PV =( 753.083251562) + (372.4306236)
PV = $1125.513
Mars bond;
Period(t) = 20years = 80(quartely)
Coupon (C) = $30
Rate (r) = 0.1 = 0.025(quarterly)
Pay at maturity(p) = $1000
PV =[ C × (1 - (1+r)^-t) ÷ r] + [p ÷ (1 + r)^t]
PV = [30×(1-(1.025)^-80)÷0.025] + [1000÷(1.025)^80]
PV =(1033.55451663) + (138.704569467)
PV = $1172.259
