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3.4 Cost Function & Supply Curve
(con'td)
2. One Fixed Factor Cost Function
a) Types of Cost
In the short-run at
least one factor of production is fixed. During this period a
firm can produce varying levels of output but only by varying variable
inputs. Accordingly the firm has three distinct types of costs:
i - fixed costs associated with the fixed factor of production - usually K.
Fixed costs must be paid no matter the level of output, i.e. even if the
firm shuts down fixed costs still have to be paid;
ii - variable costs associated with variable factors of production - usually
L. Variable costs rise and fall according to how much of the variable
factors are employed. The higher the level of production, all things
being equal, the higher the variable costs; and,
iii - total costs that include all fixed and variable costs or TC = TFC +
TVC (M&Y 10th
Fig. 8.6; M&Y 11th Fig. 7.7; B&B Fig. 8.13; B&Z Fig. 8.2).
In turn, for each type of cost at every level of production, average costs
can be calculated:
i - Average Fixed Cost (AFC) = fixed cost per unit output (M&Y 10th
Fig. 8.7; M&Y 11th Fig. 7.8; B&B Fig. 8.16; B&Z not displayed). AFC will decline as output
increases as the fixed cost is spread over a larger and larger level of
output;
ii - Average Variable Cost (AVC) = variable cost per unit output (M&Y
10th
Fig. 8.8; M&Y 11th Fig. 7.9; B&Z Fig. 8.2). The distance between the AVC curve and
the TC curve will tend to narrow as output increases because AFC declines as
output increases; and,
iii - Average Total Cost (ATC) = fixed (AFC) + variable (AVC) cost per unit
output (M&Y 10th
Fig. 8.9; M&Y 11th Fig. 7.10; B&B not displayed; B&Z Fig. 8.2).
For each level of production, marginal cost can also be calculated from the
additional cost associated with one additional unit of output (M&Y 10th
Fig. 8.10; M&Y 11th Fig. 7.11; B&B not displayed; B&Z not displayed).
Average total and marginal cost can also be calculated from the total cost
curve. Average total cost can be derived from the slope of a straight
line or 'ray' drawn from the origin to any point on the total cost curve
(M&Y 10th
Fig. 8.12; M&Y 11th Fig. 7.14; B&B Fig. 8.7; B&Z Fig. 8.3). Marginal cost can be derived from the
changing slope of the total cost curve itself (M&Y 10th
Fig. 8.13; M&Y 11th Fig. 7.15; B&B Fig. 8.7; B&Z Fig. 8.3).
b) Relationship between
Types of Costs
Marginal cost (MC)
will initially decline as output increases but eventually, assuming at least
one fixed factor of production, the Law of Diminishing Returns sets
in and marginal cost begins to rise. The MC curve will cut the average cost
curve (AC) at its lowest point. Thus as long as MC < AC then AC falls;
when MC = AC then AC will be at its minimum; when MC > AC then AC will
increase (M&Y10th
Fig. 8.14; M&Y Fig. 7.16; B&B Fig. 8.7; B&Z Fig. 8.3).
c) Cost in the Long-Run
Using the one fixed
factor cost function, the long-run cost or expansion path of a firm is
considered to be the sequence of short-run (SR) scenarios for varying scale
of plant and equipment (M&Y 10th
Fig. 8.15; M&Y 11th Fig. 7.18; B&B not displayed; B&Z not displayed). In each SR scenario the
scale of plant and equipment increases but during that period plant and
equipment are consider to be fixed. The result is a set of
average cost curve for each scale of production. An envelop curve can
then be drawn representing the long-run (LR) minimum average cost at each
level of output (M&Y 10th
Fig. 8.16; M&Y 11th Fig. 7.19; B&B Fig 8.17; B&Z Fig. 8.7). The question remains as to when this
series of SR scenarios becomes the LR.
d) Supply Curve: Shutdown and Breakeven
The question
remains: How much output will a firm be willing to supply given its cost
constraints? Put another way: What is the firm's supply curve?
This depends on how much the firm can get for its output, i.e. the price or
revenue it receives per unit (adjusted M&Y
10th
Fig. 9.3;
M&Y 11th Fig. 8.4; B&B Fig. 9.2; B&Z Fig. 9.3). If a firm cannot earn at least enough to
cover all of its variable costs then in the short run it will shut down.
This occurs at point B where marginal cost is equal to minimum average
variable cost. This is called the 'shut down point'. If a firm
earns a price higher than B it can cover all of its variable costs and some
of its fixed costs and it will stay in business. Put another way, the
firm will maximize profits by minimizing losses.
In the long run,
however, a firm must cover all costs - fixed and variable - or it will go
out of business. This occurs at point D where marginal cost is equal
to minimum average total cost. This is called the 'break even point'.
At this point all factors of production - including entrepreneurship - are
fully paid their opportunity cost. If the firm receives a price higher
than the break even point then it will earn economic or excess profits.
Thus the supply
curve of a firm is the marginal cost curve above minimum AVC in the
short-run and above ATC in the long-run.
It is important to
appreciate that the price or revenue a firm receives applies to each and
every unit of output it sells. Accordingly it will produce to the
point at which the cost of the next unit of output (MC) equals the price or
revenue it receives for that last unit. In effect, a firm earns a
profit on each previous unit (if the price or revenue is greater than
minimum AVC or minimum ATC in the short- and long-run, respectively).
A firm thus maximizes its profits by producing at the point where price or
revenue equals marginal cost of the last unit of output. |
