 2005 South-Western Publishing

1. DEMAND ANALYSIS Overview of Chapter 3 • Demand Relationships • Demand Elasticities • Income Elasticities • Cross Elasticities of Demand • Combined Effects of Elasticities 2005 South-Western Publishing

2. Health Care & Cigarettes • Raising cigarette taxes reduces smoking • In Canada, $4 for a pack of cigarettes reduced smoking 38% in a decade • But cigarette taxes also helps fund health care initiatives • The issue then, should we find a tax rate that maximizes tax revenues? • Or a tax rate that reduces smoking?

3. Demand Analysis • An important contributor to firm risk arises from sudden shifts in demand for the product or service. • Demand analysis serves two managerial objectives: (1) it provides the insights necessary for effective management of demand, and (2) it aids in forecasting sales and revenues.

4. Demand Curves • Individual Demand Curve the greatest quantity of a good demanded at each price the consumers are willing to buy, holding other influences constant $/Q $5 20 Q /time unit

5. Sam + Diane = Market • The Market Demand Curveis the horizontal sum of the individual demand curves. • The Demand Functionincludes all variables that influence the quantity demanded 4 3 7 Q = f( P, Ps, Pc,Y, N W, PE) - + - ? + ? + P is price of the good PS is the price of substitute goods PC is the price of complementary goods Y is income, N is population, W is wealth, and PE is the expected future price

6. Downward Slope to the Demand Curve • Reasons that price and quantity are negatively related include: • income effect-- as the price of a good declines, the consumer can purchase more of all goods since his or her real income increased. • substitution effect-- as the price declines, the good becomes relatively cheaper. A rational consumer maximizes satisfaction by reorganizing consumption until the marginal utility in each good per dollar is equal:

7. Elasticity as Sensitivity • Elasticity is measure of responsiveness or sensitivity • Beware of using Slopes Slopes change with a change in units of measure price price per per bu. bu. bushels hundred tons

8. Price Elasticity • ED = % change in Q / % change in P • Shortcut notation: ED =%Q / %P • A percentage change from 100 to 150 is 50% • A percentage change from 150 to 100 is -33% • For arc elasticities, we use the average as the base, as in 100 to 150 is +50/125 = 40%, and 150 to 100 is -40% • Arc Price Elasticity-- averages over the two points Average quantity arc price elasticity ED = DQ/ [(Q1 + Q2)/2] DP/ [(P1 + P2)/2] D Average price

9. Arc Price Elasticity Example • Q = 1000 when the price is $10 • Q= 1200 when the price is reduced to $6 • Find the arc price elasticity • Solution: ED = %Q/ %P = +200/1100 - 4 / 8 or -.3636. The answer is a number. A 1% increase in price reduces quantity by .36 percent.

10. Point Price Elasticity Example • Need a demand curve or demand function to find the price elasticity at a point. ED = %Q/ %P =(Q/P)(P/Q) If Q = 500 - 5•P, find the point price elasticity at P = 30; P = 50; and P = 80 • ED = (Q/P)(P/Q) = - 5(30/350) = - .43 • ED = (Q/P)(P/Q) = - 5(50/250) = - 1.0 • ED = (Q/P)(P/Q) = - 5(80/100) = - 4.0

11. Price Elasticity (both point price and arc elasticity ) • If ED = -1, unit elastic • If ED > -1, inelastic, e.g., - 0.43 • If ED < -1, elastic, e.g., -4.0 price Straight line demand curve example elastic region unit elastic inelastic region quantity

12. Two Extreme Examples( Figure 3.3) D D’ Perfectly Elastic | ED| = B and Perfectly Inelastic |ED | = 0 D D’

13. TR and Price Elasticities • If you raise price, does TR rise? • Suppose demand is elastic, and raise price. TR = P•Q, so, %TR = %P+ %Q • If elastic, P , but Q a lot • Hence TR FALLS !!! • Suppose demand is inelastic, and we decide to raise price. What happens to TR and TC and profit?

14. ( Figure 3.4 ) Another Way to Remember Elastic Unit Elastic Inelastic • Linear demand curve • TR on other curve • Look at arrows to see movement in TR Q Q TR

15. MR and Elasticity • Marginal revenue is DTR / DQ • To sell more, often price must decline, so MR is often less than the price. • MR = P ( 1 + 1/ED )equation 3.7 on page 90 • For a perfectly elastic demand, ED = -B. Hence, MR = P. • If ED = -2, then MR = .5•P, or is half of the price.

16. 1979 Deregulation of Airfares • Prices declined after deregulation • And passengers increased • Also total revenue increased • What does this imply about the price elasticity of air travel? • It must be that air travel was elastic, as a price decrease after deregulation led to greater total revenue for the airlines.

17. Determinants of the Price Elasticity • The availability and the closeness of substitutes • more substitutes, more elastic • The more durable is the product • Durable goods are more elastic than non-durables • The percentage of the budget • larger proportion of the budget, more elastic • The longer thetimeperiod permitted • more time, generally, more elastic • consider examples of business travel versus vacation travel for all three above.

18. Income Elasticity EY = DQ/ [(Q1 + Q2)/2] arc income DY/ [(Y1 + Y2)/2] elasticity EY = %Q/ %Y = (Q/Y)( Y/Q) point income • arc income elasticity: • suppose dollar quantity of food expenditures of families of $20,000 is $5,200; and food expenditures rises to $6,760 for families earning $30,000. • Find the income elasticity of food • %Q/ %Y= (1560/5980)•(10,000/25,000) = .652 • With a 1% increase in income, food purchases rise .652%

19. Income Elasticity Definitions • If EY >0, then it is a normalor income superior good • some goods are Luxuries: EY > 1 with a high income elasticity • some goods are Necessities: EY < 1 with a low income elasticity • If EY is negative, then it’s aninferiorgood • Consider these examples: • Expenditures on new automobiles • Expenditures on new Chevrolets • Expenditures on 1996 Chevy Cavaliers with 150,000 miles Which of the above is likely to have the largest income elasticity? Which of the above might have a negative income elasticity?

20. Point Income Elasticity Problem • Suppose the demand function is: Q = 10 - 2•P + 3•Y • find the income and price elasticities at a price of P = 2, and income Y = 10 • So: Q = 10 -2(2) + 3(10) = 36 • EY = (Q/Y)( Y/Q) = 3( 10/ 36) = .833 • ED = (Q/P)(P/Q) = -2(2/ 36) = -.111 • Characterize this demand curve, which means describe them using elasticity terms.

21. Cross Price Elasticities EX = %QA / %PB= (QA/PB)(PB /QA) • Substitutes have positive cross price elasticities: Butter & Margarine • Complements have negative cross price elasticities: DVD machines and the rental price of DVDs at Blockbuster • When the cross price elasticity is zero or insignificant, the products are not related

22. PROBLEM: Find the point price elasticity, the point income elasticity, and the point cross-price elasticity at P=10, Y=20, and Ps=9, if the demand function were estimated to be: QD = 90 - 8·P + 2·Y + 2·Ps Is the demand for this product elastic or inelastic? Is it a luxury or a necessity? Does this product have a close substitute or complement? Find the point elasticities of demand.

23. Answer • First find the quantity at these prices and income: QD = 90 - 8·P + 2·Y + 2·Ps = 90 -8·10 + 2·20 + 2·9 =90 -80 +40 +18 = 68 • ED = (Q/P)(P/Q) = (-8)(10/68)= -1.17 which is elastic • EY = (Q/Y)(Y/Q) = (2)(20/68) = +.59 which is a normal good, but a necessity • EX = (QA/PB)(PB /QA) = (2)(9/68) = +.26 which is a mild substitute

24. Combined Effect of Demand Elasticities • Most managers find that prices and income change every year. The combined effect of several changes are additive. %DQ = ED(% DP) + EY(% DY) + EX(% DPR) • where P is price, Y is income, and PR is the price of a related good. • If you knew the price, income, and cross price elasticities, then you can forecast the percentage changes in quantity.

25. Example: Combined Effects of Elasticities • Toro has a price elasticity of -2 for snow-throwers • Toro snow throwers have an income elasticity of 1.5 • The cross price elasticity with professional snow removal for residential properties is +.50 • What will happen to the quantity sold if you raise price 3%, income rises 2%, and professional snow removal companies raises its price 1%? • %DQ = EP • %DP +EY • %DY + EX • %DPx = -2• 3% + 1.5 • 2% +.50• 1% = -6% + 3% + .5% • %DQ = -2.5%. We expect sales to decline. Q: Will Total Revenue for your product rise or fall? A: Total revenue will rise slightly (about + .5%), as the price went up 3% and the quantity of snow-throwers sold will fall 2.5%.