CHAPTER – 08
COST AND REVENUE ANALYSIS
What is Cost and
Revenue?
ü Cost – The amount of money spend for the production of
goods and services.
ü Revenue – The amount of money a firm gets by selling the goods
and services.
TYPES OF COST
1. Money Cost
The expenses
of a firm in terms of money or cash that is rent, wages, interest etc.
2.
Real Cost
The efforts and
sacrifices made by the owners of factors of production used in the production
of a commodity.
3.
Explicit Cost
Those costs which are
entered in the account book, example, payments of rent, interest, taxes,
license fee, power charges, cost of raw materials etc.
4.
Implicit Cost / Imputed Cost
Those costs which are
not entered in the account book, example, rent for his own land, interest for
his own capital, payment for his own labour.
5.
Opportunity Cost
It refers to the cost
of the production of next best alternative good which has sacrificed the
production of another.
6.
Private Cost
It
refers to the cost of production incurred by an individual firm in producing a
commodity.
7.
Social Cost
It refers to the cost
that the society has to bear on account of the production of a commodity.
8.
Fixed Cost
Those costs which are
incurred on fixed factors such as salary of the permanent staff, rent of the
factory building, property tax, license fee etc. Fixed cost is also known as
the ‘supplementary cost’ or ‘overhead cost’.
9.
Variable Cost
Those costs which are
incurred on variable fixed factors such as raw materials and labour. It is also
known as ‘prime cost’ or ‘direct cost’.
10. Normal Profit
It is defined as the
minimum payment which a producer must get in order to induce him to undertake
the risk of production.
BEHAVIOUR OF COST IN THE SHORT-RUN
ü The short-run costs may be classified as:
TOTAL COST
CURVES
Total cost corresponding to fixed and variable
factors in the shot-run is divided into TWO
parts:
1.
Total Fixed Cost
2.
Total Variable
Cost
1.
TOTAL FIXED COST (TFC)
It refers to the total cost incurred by the firm on
the use of all fixed factors. It is often known as ‘unavoidable cost’.
2.
TOTAL VARIABLE COST (TVC)
It refers to the total cost incurred by a firm on
the use of the variable factors. It is also known as ‘avoidable cost’.
TOTAL COST (TC)
Total cost refers to the sum total of fixed cost and
variable cost. That is: TC = TFC+TVC
SCHEDULE OF TFC, TVC AND TC
Output
(Units)
|
TFC
|
TVC
|
TC
|
0
1
2
3
4
5
6
|
60
60
60
60
60
60
60
|
0
40
76
102
132
170
222
|
60
100
136
162
192
230
282
|
BEHAVIOUR OF SHORT-RUN
TOTAL COSTS
TFC curve is a
straight line parallel to the horizontal axis indicating the same amount of
fixed cost at every level of output. TFC is constant at OA. Note that TFC curve
starts from point A on the Y-axis indicating that total fixed cost will be
incurred even if output is zero.
The TVC curve is
concave downward up to OQ level of output indicating that the total variable
cost increases at a decreasing rate, and subsequently it is concave upward
indicating that total variable cost increases at an increasing rate.
The shape of TC
curve is the same as that of the TVC curve. This means that slopes of the TC
curve and TVC curves are identical. Note that TC curve originates not from O,
but from A because at zero level of output, TC equals FC since TVC is zero when
output is zero. Therefore, like the TVC, TC increases at a decreasing rate
first and then at an increasing rate.
Why does TVC increase at a decreasing rate first and
at an increasing rate subsequently as the level of output is increased?
ü Total variable cost increase at a decreasing rate
due to increasing returns to the variable inputs arising from the fuller
utilization of fixed factors and greater specialization. It increases at an
increasing rate due to diminishing returns to the variable inputs arising from
difficulty of management and over utilization of fixed factor.
AVERAGE COST CURVES
Average cost corresponding to fixed and variable
factors in the shot-run is divided into THREE
parts:
1.
Average Fixed
Cost
2.
Average Variable
Cost
3.
Average Total
Cost
1.
AVERAGE FIXED COST (AFC)
It refers to per unit cost of the fixed factors. It
is obtained by dividing total fixed cost by the total units of output. Thus:
1.
AVERAGE
VARIABLE COST (AVC)
It refers to per unit
cost of the variable factors of production. It is obtained by dividing the
total variable cost with the units of output. Thus:
1.
AVERAGE COST (AC) / AVERAGE TOTAL COST (ATC)
It refers to per unit
cost of both fixed and variable factors of production. It is obtained by
dividing total cost by total units of output. Thus:
SCHEDULE OF AFC, AVC, AC / ATC AND MC
Output
(Units)
|
TFC
|
TVC
|
TC
|
AFC
|
AVC
|
AC/ATC
|
MC
|
0
1
2
3
4
5
6
|
60
60
60
60
60
60
60
|
0
40
76
102
132
170
222
|
60
100
136
162
192
230
282
|
0
60
30
20
15
12
10
|
0
40
38
34
33
34
37
|
0
100
68
54
48
46
47
|
0
40
36
26
30
38
52
|
BEHAVIOUR OF AVERAGE
COSTS
AFC curve slopes downward throughout its length from
left to right showing continuous fall in average fixed cost with an increase in
output. The AVC curve slopes downward up to output OQ2 showing
decrease in the average variable cost, and slopes upward beyond output OQ2
indicating an increase in the average variable cost. In other words, AVC curve is
U-shaped.
Why is AVC Curve U-shaped?
ü U-shaped of AVC follows directly from the law of
variable proportions OR the AVC falls up to the optimum capacity level of
output due to increasing returns to the variable factor and it increases
thereafter due to diminishing returns to the variable factor.
v Three important observations
about ATC Curve
@ The distance between ATC curve and the AVC curve
gets smaller as the level of output increases.
@ ATC curve is U-shaped indicating that ATC falls
initially, reaches the maximum point and then starts rising.
@ The minimum point of ATC curve is above the maximum
point of AVC curve.
MARGINAL COST (MC)
MC is the addition to total cost as
more unit of output is produced. In other words, it is the change in total cost
as a result of change in output by one unit. It can be written as:
SHORT-RUN
MARGINAL COST CURVE
ü The MC for any level of output can be calculated by
taking the slope of the total cost curve corresponding to that level of output.
v Three important points about MC to
be noted
@ MC is independent of the fixed cost, but it is
associated with the variable cost and thereby with the total cost.
@ MC curve is common both to AVC curve and ATC curve.
@ MC curve is U-shaped.
RELATIONSHIP BETWEEN AC AND MC
|
|
1. When MC is less than the AC, it means that AC falls
with increase in output.
2. When MC is greater than AC, it means that AC is
rising.
3. When MC is equal to AC, it means that AC is
constant.
LONG-RUN COST CURVES
ü In the long-run all the factors are variable. There
are no fixed costs. The long-run cost of a product is the least cost of
producing each level of output when all factors of production including the
plant are variable.
ü The long-run costs may be classified as:
LONG-RUN AVERAGE
COST (LAC) CURVE
LAC is the cost
per unit of production in the long-run. It is an envelope of various short-run
average cost curve. It is obtained by dividing the long-run total cost by the
level of output. Thus:
|
|
|
|
LONG-RUN
MARGINAL COST (LMC) CURVE
LMC
can be derived from the long-run total cost or LAC curve. When LAC curve is
U-shaped, LMC curve is also U-shaped.
1. When LAC curve slopes downward, LMC curve will be
below the LAC curve.
2. When LAC curve is at its minimum, LMC will be equal
to LAC curve
3. When LAC curve rises, LMC curve will be above the
LAC curve.
Why
is LAC Curve U-Shaped? – Economies and Diseconomies of Scale.
ü The U-shaped of the long-run average cost curve is
explained by the economies and diseconomies of scale.
@ Economies refer to reducing the cost of production or some
advantages as output increases.
@ Diseconomies refer to increasing the cost of production or some
disadvantages as output increases.
ü The economies and diseconomies of scale are of TWO kinds:
1. Internal economies and diseconomies.
2. External economies and diseconomies.
Internal Economies
|
Internal Diseconomies
|
@ The
followings are the main internal economies:
1. Technical
Economies
2. Managerial
Economies
3. Marketing
Economies
4. Financial
Economies
5. Economies
in Transport and storage
6. Research
and Development Economies
7. Risk
and survival Economies
|
@ The
followings are the main internal diseconomies:
1. Managerial
Diseconomies
2. Labour
inefficiency
3. Technical
Diseconomies
|
External economies
|
External Diseconomies
|
@ The
followings are the main external economies:
1. Cheaper
Inputs
2. Technological
Economies
3. Supply
of skilled Labour
4. Growth
of Ancillary Industry
5. Constant
Flow of Information
6. Economies
of localization
|
@ The
followings are the main external diseconomies:
1. Rise
in Input Prices
2. Higher
Wages
3. Costlier
Transport
|
SHIFT OF LAC CURVE
ü The shift of the LAC curve is due to external
economies and diseconomies. The external economies lead to fall in the cost of
production as a result the cost curve shift downward from LAC to LAC1.
The
external diseconomies lead to increase in cost of production and upward shift
of the cost curve from LAC to LAC2.
CONCEPT OF REVENUE
@ REVENUE means the income earned by the firm from the selling
of goods and services. The concept
of revenue can be divided into THREE:
1. Total Revenue
2. Average Revenue
3.
Marginal Revenue
TOTAL REVENUE (TR)
@ It refers to the total amount of income received by
the firm from selling a given amount of its output. It can be calculated by
multiplying the price of the commodity with the total number of units sold.
Thus:
TR = P × Q
AVERAGE REVENUE (AR)
@ It
refers to the revenue earned from the sale of each unit of output. It is
obtained by dividing total revenue by unit of output sold. AR is always equal
to the price. Thus:
MARGINAL
REVENUE (MR)
@ It is defined as the addition to total revenue which
results from the sale of one additional unit of output. It is calculated as the
ratio of change in total revenue to change in units of output sold. Thus:
BEHAVIOR OF REVENUE
UNDER DIFFERENT MARKET STRUCTURES
Behaviour of and
Relationship between TR, AR and MR under Perfect Competition
Units
of Output (Q)
|
Price
(P)
|
TR
(P×Q)
|
AR
(TR÷Q)
|
MR
(TRn
– TR n-1)
|
1
2
3
4
5
|
15
15
15
15
15
|
15
30
45
60
75
|
15
15
15
15
15
|
15
15
15
15
15
|
@ Since a firm under
perfect competition is not require to reduce the price selling more units of
output, the average revenue is constant at all levels of output. This is
because AR is same as price and price under perfect competition is constant.
If the price or the AR remains the same when more units of a product are
sold, this means that the MR and AR are equal. Under perfect competition AR and
MR is a horizontal line parallel to X axis.
TR increases at a
constant rate with a change in output. TR curve under perfect competition is a
straight line from the origin and its slope is constant as determined by the
price.
Behaviour of and
Relationship between TR, AR and MR under Imperfect Competition
Output
(Units)
|
Price
P=AR
|
TR
(P×Q)
|
AR
(TR÷Q)
|
MR
(TRn
– TR n-1)
|
1
2
3
4
5
6
7
|
20
18
16
14
12
10
8
|
20
36
48
56
60
60
56
|
20
18
16
14
12
10
8
|
20
16
12
8
4
0
- 4
|
@@ TR
under imperfect competition increases initially, but at a diminishing rate with
increase in output. AR falls continuously as output increases because under
imperfect competition, a firm required to reduce price to sell more output.
However it cannot be negative as price cannot be negative. MR falls
continuously, eventually it become negative.
RELATIONSHIP
BETWEEN TR AND MR
1. When TR
increases with an increase in output, the MR is positive.
2. When TR reaches
maximum, the MR becomes zero.
3. When TR falls
with an increase in output, the MR becomes negative.
RELATIONSHIP BETWEEN AR AND MR
1.
So
long as AR curve is falling, MR is less than AR for every level of output.
2.
When
AR curve is a straight line, the MR curve is also straight line, but the rate
of fall of MR curve is twice as much as the rate of fall of AR curve.
