1. Chapter 8: Production with Two Inputs or Outputs Agricultural Production Economics: Two Inputs or Two Outputs

2. Factor-Factor Relationships Two Inputs, One Output

3. Production Function: Y = f(X,X |X, X, X ) Variable inputs Fixed inputs Output (TPP)* *Total Physical Product 1 2 3 4 5

4. Isoquant (equal quantity) X X Y* All points on isoquant are the same level of output (like an indifference curve) 2 1

5. X X Y* bowed inward because of the law of diminishing (marginal) returns Inputs are more productive when used with each other Isoquants are 1 2

6. Ammonium Nitrate Ammonia 33% N 82 % N Perfect Substitutes Tractors Tractor Drivers Fixed Proportion Imperfect Substitutes (the normal case) Nitrogen Phosphate Types of Isoquants:

7. X X Y* Marginal Rate of Substitution MRSx 1 x 2 = x 2 / x 1 2 The slope of the isoquant is the rate at which inputs substitute for each other along the isoquant X2 X1 Phosphate Fertilizer Nitrogen Fert- izer Corn (100 bu.) 1

8. Marginal Rate of Substitution MRSx 1 x 2 = x 2 / x 1 Not constant, but the slope varies along the isoquant: nitrogen and phosphate fertilizers are not perfect substitutes!

9. X X 2 Phosphate Fertilizer Nitrogen Fert- izer Isocost (Budget Line) for Fertilizer $30 cash outlay Phosphate $0.30/lb Nitrogen $0.15/lb Could purchase with $30 either 100 lb P or 200 lb N O 2 5 or some combination! 1

10. X X 2 Phosphate Fertilizer Nitrogen Fert- izer Isocost (Budget Line) for Fertilizer $30 cash outlay Phosphate $0.30/lb Nitrogen $0.15/lb Could purchase with $30 either 100 lb P or 200 lb N O 2 5 or some combination! 200 lb Nitrogen 100 lb Phosphate 75 lb Phosphate 50 lbs Nitrogen 150 lb Nitrogen 25 lb Phosphate 1

11. X X Phosphate Fertilizer Nitrogen Fert- izer 200 lb Nitrogen 75 lb Phosphate 50 lbs Nitrogen 150 lb Nitrogen 25 lb Phosphate Superimposing the Isoquant on the Budget Line: Y* X2X2 Corn (100 bu.) 1 2 X1X1 100 lb Phosphate

12. Phosphate Fertilizer Nitrogen Fert- izer 200 lb Nitrogen 75 lb Phosphate 50 lbs Nitrogen 150 lb Nitrogen 25 lb Phosphate Superimposing the Isoquant on the Budget Line: Y* X2 X1 Corn (100 bu.) Slope of Isocost = Price of Phosphate Price of Nitrogen Slope of Isoquant = Nitrogen Phosphate - - X1X1 X 2 100 lb Phosphate

13. X X Phosphate Fertilizer Nitrogen Fert- 200 lb Nitrogen 75 lb Phosphate 50 lbs Nitrogen 150 lb Nitrogen 25 lb Phosphate Superimposing the Isoquant on the Budget Line: Y* X2X2 X1X1 Corn (100 bu.) Slope of Isocost = Price of Phosphate Price of Nitrogen Slope of Isoquant = Nitrogen Phosphate Optimum Combination where Price of Phosphate Price of Nitrogen Nitrogen Phosphate = - - izer 2 1 100 lb Phosphate

14. X Phosphate Fertilizer Nitrogen Fert- Y* Corn (100 bu.) Optimum Combination where Price of Phosphate Price of Nitrogen Nitrogen Phosphate = 60 lbs 80 lbs Point of Tangency 1 2 X izer

15. X X Phosphate Fertilizer Nitrogen Fert- izer Corn (100 bu.) 60 lbs 80 lbs Corn (120 bu.) Corn ( 140 bu. ) Corn (160 bu.) Isoquant Map For various corn yields 2 1

16. X X Phosphate Fertilizer Nitrogen Fert- izer Corn (100 bu.) 60 lbs 80 lbs Corn (120 bu.) Corn ( 140 bu. ) Corn (160 bu.) Now Superimpose Isocost (budget) lines (same slope-- different outlays) 2 1

17. X X Phosphate Fertilizer Nitrogen Fert- izer Corn (100 bu.) 60 lbs 80 lbs Corn (120 bu.) Corn ( 140 bu. ) Corn (160 bu.) 1 2 Points of Tangency

18. X X 1 Phosphate Fertilizer Nitrogen Fert- izer Corn (100 bu.) 60 lbs 80 lbs Corn (120 bu.) Corn (140 bu. Corn (160 bu.) Expansion Path 2 )

19. Selection of Combinations of Farm Enterprises

20. Product-Product Relationships Two Products One Variable Input

21. Production Function for Corn and Soybeans Input X Yield of Soybeans Yield of Corn Phosphate Corn Yields Higher than Soybean Yields 150 bu 45 bu

22. Input X Yield of Soybeans Yield of Corn Phosphate 150 bu 45 bu Assume: Farmer has 100 lbs Phosphate total How should it be allocated between corn and soybean production? Depends on prices of corn & soybeans 100 lbs

23. Data from Production Functions Total Phosphate Used Phosphate on Corn Phosphate on Soybeans Corn Yield bu/Acre Soybean Yield bu/Acre

24. Data from Production Functions 100 40 100 20 80 100 0 100 60 41 100 80 20133 20 Total Phosphate Used Phosphate on Corn Phosphate on Soybeans Corn Yield bu/Acre Soybean Yield bu/Acre 100 60 0 40 60 135 125 110 0 28 35 0 45

26. 0,100 20,80 40,60 60,40 80,20 100,0 Pounds phosphate applied to each crop

27. 80,20 100,0 Production Possibilities from 100 lbs. Phosphate 0,100 20,80 40,60 60,40

28. Assume: Price of Corn $3.00/bu Price of Soybeans Isorevenue Line All combinations of Corn and Soybeans that Produce the Same Total Revenue $8.00/bu for example, $1000 or 333 1/3 bushels corn Other possibilities???? could be produced from 125 bushels soybeans

29. Soybeans Corn 333 1/3 bu. 125 bu. 3 8 Isorevenue for $1000 total revenue Corn Price Soybean Price

30. Now Bring Back Production Possibilities Curve

31. Production Possibilities from 100 lbs. Phosphate

32. 8 3 Isorevenue line slope 8/3

33. 8 3 Isorevenue line slope 8/3 Keep Pushing Isorevenue Line Outward

34. 60,40 8 3 Point of Tangency Solution: 60 lbs Phosphate to Soybeans 40 lbs Phosphate to Corn

35. Output Expansion Path

36. Output Expansion Path: Connects points of tangency between the Product Transformation Curve and the isorevenue lines This is a path along which the firm would expand as production of the two outputs is increased.

37. The slope of Product Transformation Curve equals the negative of the Rate of Product The slope of the Isorevenue Line equals the negative ratio of the output prices. At the point of tangency between the Product Transformation Curve and the Isorevenue Line, the slope of the Product Transformation Curve and the slope of the Isorevenue Line are equal. The Output Expansion Path connects all of these points. Transformation.

38. Hence, the Rate of Product Transformation is Corn Soybeans At the point of tangency between the Product Transformation Curve and the Isorevenue Line Corn Soybeans = Price of Soybeans Price of Corn For a specific input, or resource level, this is the optimum amount of corn and soybeans to be produced. The Rate of Product Transformation (RPT) is the negative of the slope of the Product Transformation Curve.