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CHAPTER 5

CHAPTER 5. THEORY OF PRODUCTION. OUTPUTS Refers to what we get at the end of the production process that is finished products. INPUTS Inputs refers to the factors of production that a firm use in the production process. Processing. DEFINITION OF PRODUCTION. Definition

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CHAPTER 5

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  1. CHAPTER 5 THEORY OF PRODUCTION

  2. OUTPUTS Refers to what we get at the end of the production process that is finished products. INPUTS Inputs refers to the factors of production that a firm use in the production process. Processing DEFINITION OF PRODUCTION • Definition • Production means the process of using the factor of production to produce goods and services. • Production is the process of transforming inputs into outputs.

  3. LABOUR Physical or mental activities of human beings LAND All natural resources or gift of nature CLASSIFICATION OF FACTORS OF PRODUCTION ENTREPRENEUR A person who combines the different factors of production, and initiates the process of production and also bears the risk CAPITAL Part of man-made wealth used for further production

  4. PRODUCTION FUNCTION • A production function is a statement of the functional relationship between inputs and outputs, where it shows the maximum output that can be produced with given inputs. • Where: Q = Output K = Capital L = Labour M = Raw Material Q = (K, L, M, etc.)

  5. SHORT-RUN AND LONG-RUN PRODUCTION FUNCTION • Two Types of Factor Inputs • Fixed Input • An input which the quantity does not change according to the amount of output. • Example: Machinery, land, buildings, tools, equipment, etc. • Variable Input • An input which the quantity changes according to the amount of output. • Example: Raw materials, electricity, fuel, transportation, communication, etc. • Short-run and Long-run Periods • Short runperiod is the time frame, which at least one of the inputs (factor of production) is fixed and other inputs can be varied. • Long runperiod is the time frame which all inputs are variable.

  6. SHORT-RUN PRODUCTION FUNCTION • In the short run, we assume that at least oneof the inputs is fixed that is capital. • Therefore, in the short run the production function can be written as: Q = ( K , L) Where: Q = Output L = Labour K = Capital (fixed)

  7. SHORT-RUN PRODUCTION FUNCTION (cont.) • LAW OF DIMINISHING MARGINAL RETURNS • It states that if the quantities of certain factors are increased while the quantities of one or more factors are held constant, beyond a certain level of production, the rate of increase in output will decrease. OR • “Law of diminishing marginal returns states that asmore of a variable input is used while other input and technology are fixed, the marginal product of the variable input will eventually decline”.

  8. TOTAL PRODUCT (TP) The amount of output produced when a given amount of That input is used along with fixed inputs. SHORT-RUN PRODUCTION FUNCTION (cont.) AVERAGE PRODUCT (AP) Divide the total product by the amount of that input used in the production Average Product (APL) = Total Product Total Labour APL = TP/ L

  9. MARGINAL PRODUCT (MP) Change in the total product of that input corresponding to an addition unit change in its labour assuming other factors that is capital fixed. Marginal Product (MPL) = Change in Total Product Change in Total Labour MPL =  TP/  L SHORT-RUN PRODUCTION FUNCTION (cont.)

  10. MP = 54 - 56 9 - 8 = -2 AP = 56 8 = 7 SHORT-RUN PRODUCTION FUNCTION (cont.)

  11. RELATIONSHIP BETWEEN AP AND MP When MP is aboveAP , AP is increasing When MP is belowAP, AP is decreasing. When MPequals to AP, AP is at maximum. RELATIONSHIP BETWEEN TP AND MP When MP isincreasing, TP increase at an increasing rate. When MP is decreasing, TPincrease at a decreasing rate. When MP is zero, TP at its maximum. When MP is negative, TPdeclines. STAGE II STAGE III STAGE I 60 50 TP MAX 40 TP 30 MP 20 AP MAXIMUM AP AP =MP 10 MP=0 0 1 2 3 4 5 6 7 8 9 10 -10 SHORT-RUN PRODUCTION FUNCTION (cont.)

  12. Stage I • Proportion of fixed factors are greater than variable factors • Under utilization of fixed factor • Operation involves a waste of resources Stage II • Called law of diminishing returns • The most efficient stage of production because the combinations of inputs are fully utilized Stage III • Proportion of fixed factors is lower than variable factors • Increase in variable factors decline the TP because of overcrowding • A producer would not like to operate at this stage SHORT-RUN PRODUCTION FUNCTION (cont.) STAGES OF PRODUCTION

  13. LONG-RUN PRODUCTION FUNCTION • ISOQUANT ANALYSIS • An isoquant or iso-product represents all the possible combination of two factor inputs, which gives the same level of output (total product). • Represents all the possible combinations of variable inputs that used to generate the same level of output (total product).

  14. LONG-RUN PRODUCTION FUNCTION (cont.) ISOQUANT SCHEDULE Production with two variable inputs There are various combination of capital and labour. Using 2 units of capital and 2 units of labour, the total output would be 650 units. If a firm needs 900 units of output, there are a few combinations such as 2 labour and 4 capital or 4 labour with 2 capital.

  15. LONG-RUN PRODUCTION FUNCTION (cont.) • Characteristics of Isoquant Curve • Isoquant curve slope downward from left to right. • Isoquant curve are convex to the origin. • An isoquant lying to the right represents a larger output. • Isoquant curve never intersect each other.

  16. LONG-RUN PRODUCTION FUNCTION (cont.) • Isoquant Map • Refers to a number of isoquants that are combined in a single graph. • Can be used to estimate the maximum attainable output from different combinations of inputs. • higher isoquant curve represents a higher level of output.

  17. LONG-RUN PRODUCTION FUNCTION (cont.) Isoquant map Capital 6 5 4 3 Q3=1,200 2 Q2=800 1 Q1 =450 0 1 2 3 4 5 Labour

  18. Marginal Rate of Technical Substitution • The technique to estimate the amount of capital input to bereplaced by labour input without increasing or decreasing output. MRTS = - Change in Capital Change in Labour MRTS = -  K /  L LONG-RUN PRODUCTION FUNCTION (cont.)

  19. SCALE OF PRODUCTION INCREASING RETURNS TO SCALE • All the factors of production are increased in a given proportion, output would increase by a greater proportion. Capital When labour and capital are doubled (100 units to 200 units), output increases from 20 units to 60 units, which is more than double. The causes of increasing returns to scale are specialization, technical economies, managerial economies which are also known as economies of scale. 100% 200 IQ = 60 > 100% 100 IQ =20 Labour 100% 100 200

  20. SCALE OF PRODUCTION (cont.) CONSTANT RETURNS TO SCALE • All the factors of production are increased in a given proportion, output would increase by same proportion. Capital When labour and capital are doubled (100 units to 200 units), output increases from 20 units to 40 units. 200 100% IQ = 40 100% 100 IQ =20 Labour 100 200 100%

  21. SCALE OF PRODUCTION (cont.) DECREASING RETURNS TO SCALE • All the factors of production are increased in a given proportion, output would increase by a smaller proportion. Capital When labour and capital are doubled (100 units to 200 units), output increases from 20 units to 30 units, which is less than double. The causes of decreasing returns to scale are internal and external diseconomies of scale. 200 100% IQ = 30 < 100% 100 IQ =20 Labour 100 200 100%

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