PRODUCTION FUNCTION

 MICROECONOMICS
There are different types of firms that operate in the market. A road-side milk supplier is different from the other milk supplying firms Mother Dairy, Nestle, Gokul, etc. There are different types of firms. A quick review of the types of ownership of firms would be useful at this stage.

1. Individual Proprietorship – It refers to any business that is owned by a single owner or a single business family. A small provisional stores or a laundry shop is an individual proprietorship. Here the proprietor is responsible for anything good or bad happens to the business. Such firms may be registered or unregistered ones. 2. Partnership    – Here there are groups of people who own the business. All of them are co-owners. There may be unlimited liability or each partner is totally liable for all what happens to the firm. That means if some payments are to be made and the other partners can not make, then one of them is fully liable to make the payments. 3. Corporations – In this form of a firm ownership, anyone can become a share-holder of a firm and have limited liability equal to his ownership share in the company. That means if Mr. X holds 20% of the company’s share, he is responsible for 20% of outstanding payments of that company. MTNL, Reliance Industries, Tata Motors, etc are the examples of corporations.

Objectives of Firm

Like the rational consumers aim at maximising their satisfaction or utility, the firms aim at maximising their profits. Apart from profit maximisation, firms may aim at sales maximisation, revenue maximisation, good will among the consumers. Depending upon the type of ownership of a firm, the nature of objectives may change. For example, it is argued that, under corporation as a form of firm’s ownership, the objective of profit maximisation is replaced by the objective of sales maximisation. This is because, in big corporations, ownership of firm is separated from its management.

With this background information about the firm, its ownership structure and its objectives, let us begin with the analysis of the concept of production. A story of production and firm’s behaviour will be easier to follow once we take a note of following concepts:-

1.Prodution process

It is process by which the inputs or factors of production are transformed into output. In a cement factory, inputs include labour of its workers, raw materials such as limestone, sand, clay, and capital invested in equipment required to produce cement. Output of cement industry would be different varieties of cement.



2.Inputs or factors of production

There are four factors of production, land, labour, capital and organisation. All these are brought together in the process of production to form a final output. Land represents natural resources like land plots, minerals, water, oil, etc. Labour is considered to be an integral part of the process of production. Both skilled and unskilled labour is required by the firm. Capital represents physical capital in the form of machinery, equipment, plants, factory and other physical assets. Finally, organisation/entrepreneur brings all these factors of production together to transform them into a finished product.



3.Short run and the long run period

In the theory of production, short run is a period during which some of the factors of production mentioned above are constant. For example, in the short run, firm can not buy a new machine. So capital may remain constant in the short run. If it has to increase production in the short run, it may do so by hiring more contract labour to work on the same stock of machines or equipment. Long run, on the other hand, is a period, during which all the factors of production can vary. A firm can not only hire more/less labour but also can increase/reduce size of plant, buy more/sale existing stock of capital, and so on. One should keep in mind, the short-run and long-run period in production theory, is not time specific. For a poultry firm, for example, long run will be a period, till it increases its capacity by adding poultry stock (which may take say 2 weeks). But for a cement factory, it may take 2 years to increase its capacity by constructing a new plant. So long run for cement factory may be 2 years.

As seen earlier, production involves a transformation of inputs into output. The technical relationship between inputs and output which gives maximum output is called production function. Production function gives different combinations inputs that produce maximum level of output. A production function is written as Q = f (I1....In) where, Q is output, f is a functional relationship and I1 to In are quantities of different inputs. To keep the things as simple as possible, at this stage, we will define production function as follows

Q = f (L, K)

Where

Q is output

L is labour used in process of production

K is capital used in the process of production

That means, firm’s output depends upon the labour employed and units of capital services used up in the production. Now, suppose a firm requires to increase its output, it cannot change the quantities of labour and capital at the same speed. Generally labour units can be employed at a short notice but it takes more time to install machinery or equipment i.e. capital. In the short run, one of the inputs may remain fixed say capital. Other inputs that may remain fixed in the short run may be supply of skilled labour, land plot, etc. But some inputs like unskilled labour units can be easily changed even in the short run.

So we can further define production function using the short-run and long-run period.

Short run production function        ⇒               Q = f (L,K) where L is fixed factor and K is variable factor of production.

Long run production function        ⇒               Q = f (L,K) where both L and K are variable factors of production.

There are two distinct types of production function that show possible range of substitution inputs in the production process.

1. Fixed proportion Production function

2. Variable proportions production function

These two types are based on the technical coefficient of production. The technical co-efficient is the amount of input required to produce a unit of output. For example, if 50 workers are required to produce 200 units of output, then 0.25 is the technical co-efficient of labour for production.

When 0.25 units of labour are required to produce every unit of output, it is called fixed proportion production function. Here, doubling of quantities of capital and labour in a required ratio will double the output. Fixed proportion production function can be illustrated with the help of isoquants. In this type of production function, the two factors of production, say labour and capital, should be used in a fixed proportion. The isoquants of such function are right angled as shown in the following diagram.



On the other hand, when the technical co-efficient to produce different units of output is varying or changing, it is called as the variable proportions production function. In such a type of production function, given amount of output can be produced with several alternative compbinations of labour and capital. Many commodities in real world are produced with variable proportion production function. For example, certain amount of wheat may be produced using more labour and less capital in India and more capital and less labour in USA. Variable proportion production function is illustrated in the following diagram.



The short run analysis of production function is done with one input variable (L) and the other input constant (K). The variation in the output resulting from different amounts labour applied to a fixed amount of capital is explained with the help of Law of Diminishing Returns or Law of Variable Proportions

The long run analysis of production function is done with both the inputs(L,K) variable. The variation in the output resulting from different amounts of labour and capital employed is explained with the help of Law of Returns to Scale

 

Many studies have been undertaken to empirically study and statistically calculate the relationship between physical inputs and physical output. One of such empirical production functions is Cobb Douglas Production Function. It is intermediate between a linear and a fixed proportion production function. It is given by a formula --

Q = ALαKβ

Where Q is total output,

L stands for quantity of labour,

K is quantity of capital,

A, α and β are positive constants.

Empirically it was found that, 75% increase in output can be attributed to increase in labour input and the remaining 25% was due to capital input. It was also found that the sum of exponents of Cobb-Douglas production function is equal to one. That is α + β is equal to one. This implies that it is a linearly homogenous production function.

Following are important features of Cobb-Douglas Production Function

1. Average Product of factors of production used up in this function depends upon the ratio in which the factors are combined for the production of commodity under consideration

2. Marginal Product of factors of production used up in this function also depends upon the ratio in which the factors are combined for the production of commodity under consideration

3. Cobb-Douglas production function is used in obtaining marginal rate of technical substitution ( the rate at which one input can be substituted for the other to produce same level of output) between two inputs.

4. As seen earlier, the sum of exponents of Cobb Douglas production function is equal to one. (α + β = 1). This is a measure of returns to scale. When α + β = 1, it is constant returns to scale, α + β &gt; 1, it indicates, increasing returns to scale and when α + β &lt; 1, it indicates diminishing returns to scale.

Can You solve this quiz?
1. A graph showing all the combinations of capital and labour that can be used to produce a given amount of output is ? +An isoquant -An indifference curve -A production function -An isocost line
 * type=""}

{The rate at which a firm can substitute capital for labour and hold output constant is the _Marginal rate of production -Marginal rate of substitution +Marginal rate of Technical substitution -Law of diminishing marginal returns
 * type=""}

{A graph showing all the combinations of capital and labour available for a given total cost is -Isoquant +Isocost line -Budget constraint -Expenditure set
 * type=""}

{Right-angled isoquants show +Fixed proportion production function -Cobb-Douglas production function -variable proportion production function -none of above
 * type=""}

{Laws of Returns to scale are applicatble to -short-run production function +long run production function -variable proportion production funtion -all of above
 * type=""}

{Law of diminishing marginal returns is applicatble to +short-run production function -long run production function -variable proportion production funtion -all of above
 * type=""}

In this part we have elaborately discussed the concept of production function, We have also examined different types of production function and with the help of isoquant technique, we have differentiated between these types of production function. We have also seen the important features of one of the empirical production function, Cobb-Douglas Production Function.

''Factors of Production - There are four factors of production that are used up in the process of production. These include - land, labour, capital and organisation ''

Process of Production -It is a process by which the factors of production are transformed into the final output. 

Production Function -It is a technical relationship between inputs and given level of output. 

Technical coeffcient of production- the amount of inputs required to produce a unit of output.

Fixed Proportion Production Function -It is a production function where technical coefficient of production is contant. 

Variable Proportion Production Function -It is a production fucntion where technical co-efficient of production is variable. 

&lt;reference&gt;Pindyck, Rubinfeld and Mehta - Microeconomics, 7th edition&lt;/reference&gt;