In: Economics
An industry producing chemicals shows the following marginal cost function: MgCp = 5+2X Where X is the quantity produced. The demand for X is represented by the following function: P = 20 – 2X. Assume that the market is perfectly competitive and unregulated. In the productive process the firms throw their wastes throw their wastes in a river, the society is facing a cost for the firm’s actions. The social marginal cost is given by the following function MgCs = 5 + 3X C)
C) Compute the social cost of producing the private equilibrium quantity. Graph.
We have the following information
Demand equation: P = 20 – 2X, where P is price and X is output of chemicals
When X =0, P = 20
When P =0, X = 10
Private Marginal Cost (MgCp) = 5 + 2X
In a perfectly competitive market equilibrium is the point where the price is equal to the marginal cost.
P = MgCp
20 – 2X = 5 + 2X
15 = 4X
Equilibrium output (X) = 3.75
P = 20 – 2X
P = 20 – (2 × 3.75)
Equilibrium price (P) = $12.5
Now, it is given that social marginal cost (MgCs) = 5 + 3X. Equating it with the price
20 – 2X = 5 + 3X
15 = 5X
Output level when social cost is taken into consideration = 3.
So, when social cost is taken into consideration the total output of chemicals declines to 3.
For output level of 3.75, the marginal social cost is
MgCs = 5 + 3X
MgCs = 5 + (3 × 3.75)
MgCs = 5 + 11.25
MgCs = 16.25
In the diagram below, the red shaded area representing triangle (ABC) is the social welfare loss due to the non-exclusion of social cost into production decision making process.
Social Cost = Area of triangle (ABC)
Social Cost = ½ × Base × Height
Social Cost = ½ × 3.75 × 0.75
Social Cost = 1.41