|
Qunatity
|
TFC
|
TVC
|
TC
|
AFC
|
AVC
|
ATC
|
MC
|
|
0
|
60
|
0
|
60
|
-
|
-
|
-
|
-
|
|
1
|
60
|
20
|
80
|
60
|
20
|
80
|
20
|
|
2
|
60
|
30
|
90
|
30
|
15
|
45
|
10
|
|
3
|
60
|
45
|
105
|
20
|
15
|
35
|
15
|
|
4
|
60
|
80
|
140
|
15
|
20
|
35
|
35
|
|
5
|
60
|
135
|
195
|
12
|
27
|
39
|
55
|
·
AFC is a continuously
decreasing function
·
AVC & ATC
curves are U-shaped
·
The vertical
distance between ATC & AVC at each output level is equal to AFC
·
MC crosses both
AVC & ATC from below at their respective minimums
·
MC is not
affected by fixed costs
Relationship between AC
and MC
·
When MC<AC, AC
is falling
·
When MC=AC, AC is
minimum
·
When MC>AC, AC
is rising
·
The minimum point
of MC always comes before the minimum point of AC
·
When MC is
falling AC cannot rise, it must also fall.
Derivation of long run average cost curve
In the long run, all inputs (factors
of production) are variable and firms can enter or exit any industry or market.
Consequently, a firm's output and costs are unconstrained in the sense that the
firm can produce any output level it chooses by employing the needed quantities
of inputs (such as labor and capital) and incurring the total costs of
producing that output level.
The Long Run Average
Cost, LRAC, curve of a firm shows the minimum or lowest average total
cost at which a firm can produce any given level of output in the long run
(when all inputs are variable).
Explanation
In the long run, all inputs (factors
of production) are variable and firms can enter or exit any industry or market.
Assumption - A firm is uncertain about the demand in the long run
and is considering four alternate plants. The short run curves are given
by SAC1, SAC2, SAC3 and SAC4.
Look at the following figure. In this
figure, we have 4 short run curves SAC1, SAC2, SAC3 and SAC4.
·
To produce Q0, The
firm will use SAC1 curve. At this output cost is P0
·
To produce Q1, The
firm will again use SAC1 curve. At this output cost is P0
·
To produce Q2, The
firm will use SAC2 curve. If it will continue to
use SAC1 curve, then the cost will increase to P2.
So, it would be better for the firm to bring second plant into the production.
·
At SAC2 curve, the cost of
producing Q2 would be P1, much less than P2
·
Lets see Q3: to Produce Q3, firm can either
use SAC3 or SAC4 curve.
·
For Q3, the firm will use
SAC4 curve, as it has low cost.
·
For Q3, the cost of producing at
SAC3 is much higher than SAC4.
In the long run, a firm will use the
level of inputs that can produce a given level of output at the lowest possible
average cost. Consequently, the LRAC curve is the envelope of
the short run average cost (SAC) curves, where each SRAC curve is defined by a
specific quantity of inputs
The Long Run Cost Function describes
the least-cost method of producing a given amount of output. The "Long
Run" part of the cost function means that all inputs are variable. In the
simple case, you'd consider capital and labor. In the long run, both capital
and labor may be adjusted. In the short-run, however, capital may not be
adjusted. (You can't buy and install new machinery by next week, or sell a
factory and be moved out.) You can, however, hire new employees to start work
tomorrow..
Summary
·
In the long run all inputs are flexible, while in the short run
some inputs are not flexible, long-run cost will always be less than or equal
to short-run cost.
·
In the short run the firm faces an additional constraint: all
expansion must proceed using only the variable input. And additional
constraints increase cost.
·
The envelope relationship is the relationship
explaining that, at the planned output level, short-run average total cost
equals long-run average total cost, but at all other levels of output;
short-run average total cost is higher than long-run average total cost.
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