Search results
Results from the WOW.Com Content Network
Marginal cost is the change of the total cost from an additional output [(n+1)th unit]. Therefore, (refer to "Average cost" labelled picture on the right side of the screen. Average cost. In this case, when the marginal cost of the (n+1)th unit is less than the average cost(n), the average cost (n+1) will get a smaller value than average cost(n).
An example diagram of Profit Maximization: In the supply and demand graph, the output of is the intersection point of (Marginal Revenue) and (Marginal Cost), where =.The firm which produces at this output level is said to maximize profits.
When average cost is rising, marginal cost is greater than average cost. When average cost is neither rising nor falling (at a minimum or maximum), marginal cost equals average cost. Other special cases for average cost and marginal cost appear frequently: Constant marginal cost/high fixed costs: each additional unit of production is produced ...
or "marginal revenue" = "marginal cost". A firm with market power will set a price and production quantity such that marginal cost equals marginal revenue. A competitive firm's marginal revenue is the price it gets for its product, and so it will equate marginal cost to price.
Similarly, if the third kilogram of seeds yields only a quarter ton, then the marginal cost equals per quarter ton or per ton, and the average cost is per 7/4 tons, or /7 per ton of output. Thus, diminishing marginal returns imply increasing marginal costs and increasing average costs. Cost is measured in terms of opportunity cost. In this case ...
Marginal cost (MC): Marginal cost is obtained from the additional cost that results from increasing output by one unit. It is the additional cost per additional unit of output. [7] Cost curves: It is the graphical presentation of the costs of production as a function of total quantity produced [8] [9]
In equilibrium these prices must equal the respective marginal costs and ; remember that marginal cost equals factor 'price' divided by factor marginal productivity (because increasing the production of good by one very small unit through an increase of the employment of factor requires increasing the factor employment by and thus increasing ...
Suppose there are two firms, we use C for the marginal cost, C1 stands for the marginal cost of firm 1 and C2 stands for the marginal cost of firm 2. From the result, there are two cases: When C1 < C2, Firm 1 can set the price between C1 and C2. C1 = C2 = C; This is the case of the basic Bertrand Competition which both firms have the same ...