Answer:
Option D Only amounts known with absolute certainty are reported
Explanation:
This is incorrect statement because International Accounting Standard IAS 37 Provisions, Contingent Liabilities and Contingent Assets sheds light on the recording of future events that will arise as a result of past events. The standard is useful in estimating future events so saying that the absolutely certain amounts are reported is incorrect.
The equilibrium price is the only price where the desires of consumers and the desires of producers agree—that is, where the amount of the product that consumers want to buy (quantity demanded) is equal to the amount producers want to sell (quantity supplied).
When two lines on a diagram cross, this intersection usually means something. On a graph, the point where the supply curve (S) and the demand curve (D) intersect is the equilibrium.
What Is a Demand Schedule?
In economics, a demand schedule is a table that shows the quantity demanded of a good or service at different price levels. A demand schedule can be graphed as a continuous demand curve on a chart where the Y-axis represents price and the X-axis represents quantity.
An example from the market for gasoline can be shown in the form of a table or a graph. A table that shows the quantity demanded at each price, such as Table 1, is called a demand schedule.
Price (per gallon) Quantity Demanded (millions of gallons)
$1.00 800
$1.20 700
$1.40 600
$1.60 550
$1.80 500
$2.00 460
$2.20 420
Table 1. Price and Quantity Demanded of Gasoline
Supply schedule
again using the market for gasoline as an example. Like demand, supply can be illustrated using a table or a graph. A supply schedule is a table, like Table 2, that shows the quantity supplied at a range of different prices. Again, price is measured in dollars per gallon of gasoline and quantity supplied is measured in millions of gallons.
Price (per gallon) Quantity Supplied (millions of gallons)
$1.00 500
$1.20 550
$1.40 600
$1.60 640
$1.80 680
$2.00 700
$2.20 720
Table 2. Price and Supply of Gasoline
Equilibrium price
gallon) Quantity demanded (millions of gallons) Quantity supplied (millions of gallons)
$1.00 800 500
$1.20 700 550
$1.40 600 600
$1.60 550 640
$1.80 500 680
$2.00 460 700
$2.20 420 720
Table 3. Price, Quantity Demanded, and Quantity Supplied
Because the graphs for demand and supply curves both have price on the vertical axis and quantity on the horizontal axis, the demand curve and supply curve for a particular good or service can appear on the same graph. Together, demand and supply determine the price and the quantity that will be bought and sold in a market.
The equilibrium price is the only price where the plans of consumers and the plans of producers agree—that is, where the amount of the product consumers want to buy (quantity demanded) is equal to the amount producers want to sell (quantity supplied). This common quantity is called the equilibrium quantity. At any other price, the quantity demanded does not equal the quantity supplied, so the market is not in equilibrium at that price.
In Figure 3, the equilibrium price is $1.40 per gallon of gasoline and the equilibrium quantity is 600 million gallons. If you had only the demand and supply schedules, and not the graph, you could find the equilibrium by looking for the price level on the tables where the quantity demanded and the quantity supplied are equal.
The word “equilibrium” means “balance.” If a market is at its equilibrium price and quantity, then it has no reason to move away from that point. However, if a market is not at equilibrium, then economic pressures arise to move the market toward the equilibrium price and the equilibrium quantity.
Imagine, for example, that the price of a gallon of gasoline was above the equilibrium price—that is, instead of $1.40 per gallon, the price is $1.80 per gallon. This above-equilibrium price is illustrated by the dashed horizontal line at the price of $1.80 in Figure 3. At this higher price, the quantity demanded drops from 600 to 500. This decline in quantity reflects how consumers react to the higher price by finding ways to use less gasoline.
Moreover, at this higher price of $1.80, the quantity of gasoline supplied rises from the 600 to 680, as the higher price makes it more profitable for gasoline producers to expand their output. Now, consider how quantity demanded and quantity supplied are related at this above-equilibrium price. Quantity demanded has fallen to 500 gallons, while quantity supplied has risen to 680 gallons. In fact, at any above-equilibrium price, the quantity supplied exceeds the quantity demanded.
Answer:
This took me a long time to figure out , but I'm pretty sure number 1 is
D) Silk and Wool.
And number 2 is C) Northern Nigeria
Explanation: Hope that's right, sorry if not because for number 1 most of them could be the answer, and for number 2, three of them could be the answer.
Answer:
Date Account Detail Debit Credit
June 1 Cash $4,080
Common Stock $4,080
Date Account Detail Debit Credit
June 2 Equipment $1,720
Accounts Payable $1,720
Date Account Detail Debit Credit
June 3 Rental expense $910
Cash $910
Date Account Detail Debit Credit
June 12 Accounts Receivable $800
Welding Revenue $800
Answer:
- 5,000 watches : $150,000 loss
- 20,000 watches: $60,000 (Loss)
- Break-even point = 30,000 units
- if the selling price rises to 32 = break even points descends to 10,588 units
- If the selling price rises to $32 but variable costs rises to $26 , the break even point goes back to 30,000units.
Explanation:
Hi, to answer this question we have to apply the next formula:
Profit = Revenue -cost
Where the revenue is equal to the units sold (x) multiplied by the selling price,
R = 21 x
And cost is equal to the sum of the fixed and variable costs.
C = 15x + 1800
So:
P = 21x-(15x +180,000)
P = x ( 21-15)- 180,000
P = 5000(21-15)-180,000
P = 5000(6) -180,000
P= 30,000-180,000
P=-$150,000 (loss , since is negative )
P = 20,000(6) -180,000
P = 120,000-180,000
P=-$60,000 (Loss)
- To find the break even point:
R = C
21x = 15x + 180,000
21x-15x =180,000
6 x = 180,000
x = 180,000/6
x =30,000 units
- if the selling price rises to 32
32x = 15x + 180,000
32x-15x = 180,000
17x =180,000
x = 180,000/17
x = 10,588 units
It descends,
- If the selling price rises to $32 but variable costs rises to $26
32x = 26x+180,000
32x-26x = 180,000
6x = 180,000
x = 180,000/6
x =30,000
The break-even point comes back to 30,000 units.
