Solution :
c. MC=MR is the profit maximizing equilibrium point. The price rise beyond that is likely to raise the total revenue. But the total cost might increase equally or more then that to nullify or decrease the profit.
d. (i). The demand increase implies that the AR (demand) curve shifts rightwards. This will increase the equilibrium price.
(ii). Change in demand does not affect the total cost.
a. Monopoly might continue to produce in short earn even if its AR < AC. It continues to do so until shut down point. It refers that production continued until average revenue (AR) is greater than equal to the average variable cost (AVC). The monopoly is a market with a single seller.
This market's average revenue (AR) demand curve is above its marginal curve . The curves are downward sloping, illustrating price demand inverse relationship.
Equilibrium quantity : when the marginal revenue = marginal cost
Equilibrium price : equilibrium quantity corresponding price at AR (demand ) curve.
Answer:
at the time it receives a negotiable warehouse receipt for the bats.
Explanation:
Benson Bearing Company is selling bats to Textron inc. The bats are stored at an independent warehouse not controlled by Benson Company.
Of the contract states that Textron will pick up the bats at the warehouse, the risk of loss passes to Textron when it recieved a negotiable warehouse reciept for the bats.
This is because the warehouse is not controlled by Benson Company and issuing a warehouse reciept is equivalent to delivering the goods to Textron.
In this report, there are three variables being
mentioned. These are:
1st variable = 19 minutes
2nd variable = 7 jumps
3rd variable = 79%
In this problem, I believe what we are asked to do is to
identify the type of variable the 2nd variable is. We are given that
the 2nd variable is “7 jumps”.
This means that the 2nd variable is quantitative because it
refers to or relating to a measurement of something rather than the quality. We
also know that jumps can only take whole numbers, not decimal. Therefore it is
also discrete. Hence, the 2nd variable is:
quantitative and discrete
Answer:
Task a:
The answer is $24,500.
Task b:
The answer is 17%
Explanation:
<h2>Task a:</h2><h3>What is the maximum amount of new capital that can be raised at the LOWEST component cost of EQUITY?</h3><h3>Solution:</h3>
We already know the following:
Projected net income = $21,000
Payout ratio = 30%
Retention ratio = 70%
Debt share = 40%
Equity share = 60%
Maximum amount of capital to be raised at the lowest component cost of equity = Projected net income ×
= $21,000 × 
= $24,500
<h3>Answer:</h3>
The maximum amount of new capital that can be raised at the lowest component of equity is $24,500.
<h2>Task b:</h2><h3>What is the component cost of equity by selling new common stock?</h3><h3>Solution:</h3>
k(e) (component cost of external equity) = [Dividend (D0)(1 + growth) / stock price(1 - flotation cost)] + growth
Formula:
k(e) = 
+ 0.05
Where
Do = $2.00
G = 0.05
P = $21/88
= ($2.00(1 + 0.05) / $21.88(1-.20)) + 0.05
= ($2.10/$21.88(1-.20)) + 0.05
= ($2.10/$21.88(0.80) + 0.05
= 0.17 or 17%
<h3>Answer: </h3>
The component cost of equity by selling new common stock = 17%
