Price elasticity = Q2-Q1/(Q2+Q1/2) / P2-P1/(P2+P1/2)
= [70000-60000/(70000+60000/2)] / [5-6/(5+6/2)]
= [10000/65000] / [-1/5.5]
= 0.153846/-0.181818
= -0.85
So, the demand is inleastic
The following graph shows two known points (X and Y) on a demand curve for tomatoes....
3. Using the midpoint method The following graph shows two known points (X and Y) on a demand curve for tomatoes, PRICE (Dollars per pound) Demand O + 0 + 10 20 30 40 50 60 70 80 90 QUANTITY (Thousands of pounds of tomatoes) 100 , which suggests According to the midpoint method, the price elasticity of demand for tomatoes between point X and point Y is approximately that the demand for tomatoes is between points X and Y.
3. Using the midpoint method The following graph shows two known points (X and Y) on a demand curve for tomatoes. According to the midpoint method, the price elasticity of demand for tomatoes between point X and point Y is approximately _______ , which suggests that the demand for tomatoes is _______ between points X and Y.1.2.
The following graph shows two known points (X and Y) on a demand curve for tomatoes. According to the midpoint method, the price elasticity of demand for tomatoes between point X and point Y is approximately, which suggests that the demand for tomatoes is between points X and Y.
3. Using the midpoint method The following graph shows two known points (X and Y) on a demand curve for tomatoes 10 II Demand 10 203050 00 0 8 100 QUANTITY (Thousands of pounds of tomatoes) 10 II Demand 10203° 40 50 60 70 BO 90 100 QUANTITY (Thousands of pounds of tomatoes) According to the midpoint method, the price elasticity of demand suggests that the demand for tomatoes its for tomatoes between point X and point Y is approximately...
2. Using the midpoint methodThe following graph shows two known points (X and Y) on a demand curve for oranges. According to the midpoint method, the price elasticity of demand for oranges between point X and point Y is approximately _______ , which suggests that the demand for oranges is _______ between points X and Y.
The following graph shows two known points (X and Y) on a demand curve for tomatoes. According to the midpoint method, the price elasticity of demand for tomatoes between point X and point Y is approximately(1.8 or 0.56 or 0.09 or 0.05) , which suggests that the demand for tomatoes is (elastic or inelastic) between points X and Y.
3. Using the midpoint method The following graph shows two known points (X and Y) on a demand curve for oranges. 1.According to the midpoint method, the price elasticity of demand for oranges between point X and point Y is approximately (0.03, 0.05, 0.63, 1.6) , which suggests that the demand for oranges is (elastic, inelastic)between points X and Y.
The following graph shows the demand curve for kumquats in Chicago. You can use the red rectangle labeled Total Revenue (cross symbols) to compute total revenue at various prices along the demand curve. To see the area of the Total Revenue rectangle, scroll over the shaded area with your mouse. You will not be graded on where you place the rectangle PRICE (Dollars per pound) 12 Total Revenue 10 D 6 X C B X 4 xA 2 Demand 0...
6. Elasticity and total revenue The following graph shows the daily demand curve for bikes in Detroit. Use the green rectangle (triangle symbols) to compute total revenue at various prices along the demand curve. Note: You will not be graded on any changes made to this graph. On the following graph, use the green point (triangle symbol) to plot the annual total revenue when the market price is $50, $75, $100, $125, $150, $175, and $200 per bike. According to the midpoint method, the price...
6. Elasticity and total revenueThe following graph shows the daily demand curve for bikes in San Francisco.Use the green rectangle (triangle symbols) to compute total revenue at various prices along the demand curve.Note: You will not be graded on any changes made to this graph.On the following graph, use the green point (triangle symbol) to plot the annual total revenue when the market price is $ 50,575, $ 100, $ 125, $ 150, $ 175, and $ 200 per bike.According...