Answer: Option (b) is correct.
Explanation:
Given that,
Revenues = $300,000
Merchandise it purchased = $75,000
Salaries paid = $14,000
Owners invested = $23,000
Borrowed on a five-year note = $23,000
Interest paid = $3,000
Paid for a two-year insurance policy = $6,800
Income tax rate = 9%
Gross Margin = Revenues - Cost of Goods Sold
= $300,000 - $75,000
= $225,000
Profit before tax = Gross Margin - Salaries - Insurance payment - Interest
= $225,000 - 14,000 - 3,400 - 3,000
= $204,600
Net Income = Profit before tax - Tax at 9%
= $204,600 - 18,414
= $186,186
A perfectly competitive firm faces a downward-sloping demand curve.
<h3>What is demand curve?</h3>
It is a visual illustration of the connection between product pricing and demand-side quantity. The graph is built with amount demanded on the horizontal axis and price on the vertical axis.
Demand curve has two types-
- individual demand curve: The quantity that a specific household wants at different prices is represented by a demand curve for that particular household. The graphic representation of the individual demand schedule is another way to describe it. It can be created by analyzing consumer behavior in response to price changes.
- market demand curve: The total of each individual demand curve for a certain good on the market constitutes the market demand curve. It displays the quantity of the commodity that is demanded at various pricing points. The market demand curve has a negative, or downward, slope because quantity requested declines as price rises.
<h3>What is
downward-sloping demand curve?</h3>
A demand curve demonstrating how demand declines as price rises.
The price elasticity of demand is always negative for a downward-sloping demand curve since the price and quantity requested move in the opposite directions.
To know more about the demand curve, here
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Answer:
B. 16.53%
Explanation:
The effective interest rate is the real interest rate charged by a bank or any other type of lender on a loan.
the formula to calculate effective interest rate = r = (1 + i/n)ⁿ - 1
r = [1 + (15.3%/365)³⁶⁵] -1 = 1.00419178³⁶⁵ - 1 = 1.165287621 - 1 = 0.165287621 ≈ 16.53%
Answer:
$984.50
Explanation:
Cost of bond at closing = Par value * % Bond traded last
Cost of bond at closing = 1000 * 98.45%
Cost of bond at closing = $984.50
Thus, the cost of bond at closing is $984.50
Answer:
(c) MUa/Pa = MUb/Pb
Explanation:
The Utility Maximization Rule is
MUa/Pa = MUb/Pb, where MUa represents the marginal utility derived from good a, Pa represents the price of good a, MUb represents the marginal utility of good b and Pb represents the price of good b.