Cost curve

Cost curve

In economics, a cost curve is a graph of the costs of production as a function of total quantity produced. In a free market economy, productively efficient firms use these curves to find the optimal point of production (minimising cost), and profit maximizing firms can use them to decide output quantities to achieve those aims. There are various types of cost curves, all related to each other, including total and average cost curves, and marginal ("for each additional unit") cost curves, which are the equal to the differential of the total cost curves. Some are applicable to the short run, others to the long run.

Contents

Short-run average variable cost curve (SRAVC)

Average variable cost (which is a short-run concept) is the variable cost (typically labor cost) per unit of output: SRAVC = wL / Q where w is the wage rate, L is the quantity of labor used, and Q is the quantity of output produced. The SRAVC curve plots the short-run average variable cost against the level of output, and is typically drawn as U-shaped.

Short-run average total cost curve (SRATC or SRAC)

Typical short run average cost curve

The average total cost curve is constructed to capture the relation between cost per unit of output and the level of output, ceteris paribus. A perfectly competitive and productively efficient firm organizes its factors of production in such a way that the average cost of production is at the lowest point. In the short run, when at least one factor of production is fixed, this occurs at the output level where it has enjoyed all possible average cost gains from increasing production. This is at the minimum point in the diagram on the right.

Short-run total cost is given by

STC = PKK+PLL,

where PK is the unit price of using physical capital per unit time, PL is the unit price of labor per unit time (the wage rate), K is the quantity of physical capital used, and L is the quantity of labor used. From this we obtain short-run average cost, denoted either SATC or SAC, as STC / Q:

SRATC or SRAC = PKK/Q + PLL/Q = PK / APK + PL / APL,

where APK = Q/K is the average product of capital and APL = Q/L is the average product of labor.[1]:191

Short run average cost equals average fixed costs plus average variable costs. Average fixed cost continuously falls as production increases in the short run, because K is fixed in the short run. The shape of the average variable cost curve is directly determined by increasing and then diminishing marginal returns to the variable input (conventionally labor).[2]:210

Long-run average cost curve (LRAC)

Typical long run average cost curve

The long-run average cost curve depicts the cost per unit of output in the long run—that is, when all productive inputs' usage levels can be varied. All points on the line represent least-cost factor combinations; points above the line are attainable but unwise, while points below are unattainable given present factors of production. The behavioral assumption underlying the curve is that the producer will select the combination of inputs that will produce a given output at the lowest possible cost. Given that LRAC is an average quantity, one must not confuse it with the long-run marginal cost curve, which is the cost of one more unit.[3]:232 The LRAC curve is created as an envelope of an infinite number of short-run average total cost curves, each based on a particular fixed level of capital usage.[3]:235 The typical LRAC curve is U-shaped, reflecting increasing returns of scale where negatively-sloped, constant returns to scale where horizontal and decreasing returns (due to increases in factor prices) where positively sloped.[3]:234 Contrary to Viner[citation needed], the envelope is not created by the minimum point of each short-run average cost curve.[3]:235 This mistake is recognized as Viner's Error.[citation needed]

In a long-run perfectly competitive environment, the equilibrium level of output corresponds to the minimum efficient scale, marked as Q2 in the diagram. This is due to the zero-profit requirement of a perfectly competitive equilibrium. This result, which implies production is at a level corresponding to the lowest possible average cost,[3]:259 does not imply that production levels other than that at the minimum point are not efficient. All points along the LRAC are productively efficient, by definition, but not all are equilibrium points in a long-run perfectly competitive environment.

In some industries, the bottom of the LRAC curve is large in comparison to market size (that is to say, for all intents and purposes, it is always declining and economies of scale exist indefinitely). This means that the largest firm tends to have a cost advantage, and the industry tends naturally to become a monopoly, and hence is called a natural monopoly. Natural monopolies tend to exist in industries with high capital costs in relation to variable costs, such as water supply and electricity supply.[3]:312

Short-run marginal cost curve (SRMC)

Typical marginal cost curve

A short-run marginal cost curve graphically represents the relation between marginal (i.e., incremental) cost incurred by a firm in the short-run production of a good or service and the quantity of output produced. This curve is constructed to capture the relation between marginal cost and the level of output, holding other variables, like technology and resource prices, constant. The marginal cost curve is U-shaped. Marginal cost is relatively high at small quantities of output; then as production increases, marginal cost declines, reaches a minimum value, then rises. The marginal cost is shown in relation to marginal revenue, the incremental amount of sales revenue that an additional unit of the product or service will bring to the firm. This shape of the marginal cost curve is directly attributable to increasing, then decreasing marginal returns (and the law of diminishing marginal returns). Marginal cost equals w/MPL.[1]:191 For most production processes the marginal product of labor initially rises, reaches a maximum value and then continuously falls as production increases. Thus marginal cost initially falls, reaches a minimum value and then increases.[2]:209 The marginal cost curve intersects both the average variable cost curve and (short-run) average total cost curve at their minimum points. When the marginal cost curve is above an average cost curve the average curve is rising. When the marginal costs curve is below an average curve the average curve is falling. This relation holds regardless of whether the marginal curve is rising or falling.[3]:226

Long-run marginal cost curve (LRMC)

The long-run marginal cost curve shows for each unit of output the added total cost incurred in the long run, that is, the conceptual period when all factors of production are variable so as minimize long-run average total cost. Stated otherwise, LRMC is the minimum increase in total cost associated with an increase of one unit of output when all inputs are variable.[4]

The long-run marginal cost curve is shaped by economies and diseconomies of scale, a long-run concept, rather than the law of diminishing marginal returns, which is a short-run concept. The long-run marginal cost curve tends to be flatter than its short-run counterpart due to increased input flexibility as to cost minimization. The long-run marginal cost curve intersects the long-run average cost curve at the minimum point of the latter.[1]:208 When long-run marginal costs are below long-run average costs, long-run average costs are falling (as to additional units of output).[1]:207 When long-run marginal costs are above long run average costs, average costs are rising. Long-run marginal cost equals short run marginal-cost at the least-long-run-average-cost level of production. LRMC is the slope of the LR total-cost function.

Graphing cost curves together

Cost curves in perfect competition compared to marginal revenue

Cost curves can be combined to provide information about firms. In this diagram for example, firms are assumed to be in a perfectly competitive market. In a perfectly competitive market the price that firms are faced with would be the price at which the marginal cost curve cuts the average cost curve.

Cost curves and production functions

Assuming that factor prices are constant, the production function determines all cost functions.[2] The variable cost curve is the inverted short-run production function or total product curve and its behavior and properties are determined by the production function.[1]:209 [nb 1] Because the production function determines the variable cost function it necessarily determines the shape and properties of marginal cost curve and the average cost curves.[2]

If the firm is a perfect competitor in all input markets, and thus the per-unit prices of all its inputs are unaffected by how much of the inputs the firm purchases, then it can be shown[5][6][7] that at a particular level of output, the firm has economies of scale (i.e., is operating in a downward sloping region of the long-run average cost curve) if and only if it has increasing returns to scale. Likewise, it has diseconomies of scale (is operating in an upward sloping region of the long-run average cost curve) if and only if it has decreasing returns to scale, and has neither economies nor diseconomies of scale if it has constant returns to scale. In this case, with perfect competition in the output market the long-run market equilibrium will involve all firms operating at the minimum point of their long-run average cost curves (i.e., at the borderline between economies and diseconomies of scale).

If, however, the firm is not a perfect competitor in the input markets, then the above conclusions are modified. For example, if there are increasing returns to scale in some range of output levels, but the firm is so big in one or more input markets that increasing its purchases of an input drives up the input's per-unit cost, then the firm could have diseconomies of scale in that range of output levels. Conversely, if the firm is able to get bulk discounts of an input, then it could have economies of scale in some range of output levels even if it has decreasing returns in production in that output range.

Relationship between different curves

  • Total Cost = Fixed Costs (FC) + Variable Costs (VC)
  • Marginal Cost (MC) = dC/dQ; MC equals the slope of the total cost function and of the variable cost function
  • Average Total Cost (ATC) = Total Cost/Q
  • Average Fixed Cost (AFC) = FC/Q
  • Average Variable Cost = VC/Q.
  • ATC = AFC + AVC
  • The MC curve is related to the shape of the ATC and AVC curves:[8]:212
    • At a level of Q at which the MC curve is above the average total cost or average variable cost curve, the latter curve is rising.[8]:212
    • If MC is below average total cost or average variable cost, then the latter curve is falling.
    • If MC equals average total cost, then average total cost is at its minimum value.
    • If MC equals average variable cost, then average variable cost is at its minimum value.

Relationship between short run and long run cost curves

Basic: For each quantity of output there is one cost minimizing level of capital and a unique short run average cost curve associated with producing the given quantity.[9]

  • Each STC curve can be tangent to the LRTC curve at only one point. The STC curve cannot cross (intersect) the LRTC curve.[2]:230[8]:228-229 The STC curve can lie wholly “above” the LRTC curve with no tangency point.[10]:256
  • One STC curve is tangent to LRTC at the long-run cost minimizing level of production. At the point of tangency LRTC = STC. At all other levels of production STC will exceed LRTC.[11]:292-299
  • Average cost functions are the total cost function divided by the level of output. Therefore the SATC curveis also tangent to the LRATC curve at the cost-minimizing level of output. At the point of tangency LRATC = SATC. At all other levels of production SATC > LRATC[11]:292-299 To the left of the point of tangency the firm is using too much capital and fixed costs are too high. To the right of the point of tangency the firm is using too little capital and diminishing returns to labor are causing costs to increase.[12]
  • The slope of the total cost curves equals marginal cost. Therefore when STC is tangent to LTC, SMC = LRMC.
  • At the long run cost minimizing level of output LRTC = STC; LRATC = SATC and LRMC = SMC,[11] :292-299.
  • The long run cost minimizing level of output may be different from minimum SATC,[8]:229 [13]:186.
  • With fixed unit costs of inputs, if the production function has constant returns to scale, then at the minimal level of the SATC curve we have SATC = LRATC = SMC = LRMC.[11]:292-299
  • With fixed unit costs of inputs, if the production function has increasing returns to scale, the minimum of the SATC curve is to the right of the point of tangency between the LRAC and the SATC curves.[11]:292-299 Where LRTC = STC, LRATC = SATC and LRMC = SMC.
  • With fixed unit costs of inputs and decreasing returns the minimum of the SATC curve is to the left of the point of tangency between LRAC and SATC.[11]:292-299 Where LRTC = STC, LRATC = SATC and LRMC = SMC.
  • With fixed unit input costs, a firm that is experiencing increasing (decreasing) returns to scale and is producing at its minimum SAC can always reduce average cost in the long run by expanding (reducing) the use of the fixed input.[11]:292-99 [13]:186
  • LRATC will always equal to or be less than SATC.[1]:211
  • If production process is exhibiting constant returns to scale then minimum SRAC equals minimum long run average cost. The LRAC and SRAC intersect at their common minimum values. Thus under constant returns to scale SRMC = LRMC = LRAC = SRAC .
  • If the production process is experiencing decreasing or increasing, minimum short run average cost does not equal minimum long run average cost. If increasing returns to scale exist long run minimum will occur at a lower level of output than SRAC. This is because there are economies of scale that have not been exploited so in the long run a firm could always produce a quantity at a price lower than minimum short run aveage cost simply by using a larger plant.[14]
  • With decreasing returns, minimum SRAC occurs at a lower production level than minimum LRAC because a firm could reduce average costs by simply decreasing the size or its operations.
  • The minimum of a SRAC occurs when the slope is zero.[15] Thus the points of tangency between the U-shaped LRAC curve and the minimum of the SRAC curve would coincide only with that portion of the LRAC curve exhibiting constant economies of scale. For increasing returns to scale the point of tangency between the LRAC and the SRAc would have to occur at a level of output below level associated with the minimum of the SRAC curve.

These statements assume that the firm is using the optimal level of capital for the quantity produced. If not, then the SRAC curve would lie "wholly above" the LRAC and would not be tangent at any point.

U-shaped curves

Both the SRAC and LRAC curves are typically expressed as U-shaped.[8]:211; 226 [13]:182;187-188 However, the shapes of the curves are not due to the same factors. For the short run curve the initial downward slope is largely due to declining average fixed costs.[2]:227 Increasing returns to the variable input at low levels of production also play a role,[16] while the upward slope is due to diminishing marginal returns to the variable input.[2]:227 With the long run curve the shape by definition reflects economies and diseconomies of scale.[13]:186 At low levels of production long run production functions generally exhibit increasing returns to scale, which, for firms that are perfect competitors in input markets, means that the long run average cost is falling;[2]:227 the upward slope of the long run average cost function at higher levels of output is due to decreasing returns to scale at those output levels.[2]:227

See also

Notes

  1. ^ The slope of the short-run production function equals the marginal product of the variable input, conventionally labor. The slope of the variable cost function is marginal costs. The relationship between MC and the marginal product of labor MPL is MC = w/MPL. Because the wage rate w is assumed to be constant the shape of the variable cost curve is completely dependent on the marginal product of labor. The short-run total cost curve is simply the variable cost curve plus fixed costs.

References

  1. ^ a b c d e f Perloff, J. Microeconomics, 5th ed. Pearson, 2009.
  2. ^ a b c d e f g h i Perloff, J., 2008, Microeconomics: Theory & Applications with Calculus, Pearson. ISBN 9780321277947
  3. ^ a b c d e f g Lipsey, Richard G. (1975). An introduction to positive economics (fourth ed.). Weidenfeld & Nicolson. pp. 57–8. ISBN 0297768999. 
  4. ^ Sexton, Robert L., Philip E. Graves, and Dwight R. Lee, 1993. "The Short- and Long-Run Marginal Cost Curve: A Pedagogical Note", Journal of Economic Education, 24(1), p. 34. [Pp. 34-37 (press +)].
  5. ^ Gelles, Gregory M., and Mitchell, Douglas W., "Returns to scale and economies of scale: Further observations," Journal of Economic Education 27, Summer 1996, 259-261.
  6. ^ Frisch, R., Theory of Production, Drodrecht: D. Reidel, 1965.
  7. ^ Ferguson, C. E., The Neoclassical Theory of Production and Distribution, London: Cambridge Univ. Press, 1969.
  8. ^ a b c d e Pindyck, R., and Rubinfeld, D., Microeconomics, 5th ed., Prentice-Hall, 2001.
  9. ^ Nicholson: Microeconomic Theory 9th ed. Page 238 Thomson 2005
  10. ^ Kreps, D., A Course in Microeconomic Theory, Princeton Univ. Press, 1990.
  11. ^ a b c d e f g Binger, B., and Hoffman, E., Microeconomics with Calculus, 2nd ed., Addison-Wesley, 1998.
  12. ^ Frank, R., Microeconomics and Behavior 7th ed. (Mc-Graw-Hill) ISBN 978-007-126349-8 at 321.
  13. ^ a b c d Melvin & Boyes, Microeconomics, 5th ed., Houghton Mifflin, 2002
  14. ^ Perloff, J. Microeconomics Theory & Application with Calculus Pearson (2008) p. 231.
  15. ^ Nicholson: Microeconomic Theory 9th ed. Page Thomson 2005
  16. ^ Boyes, W., The New Managerial Economics, Houghton Mifflin, 2004.

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