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The optimal output, shown in the graph as , is the level of output at which marginal cost equals marginal revenue. The price that induces ... Managerial Economics ...
Productive efficiency: no additional output of one good can be obtained without decreasing the output of another good, and production proceeds at the lowest possible average total cost. These definitions are not equivalent: a market or other economic system may be allocatively but not productively efficient, or productively but not allocatively ...
The firm produces at the quantity of output where marginal cost equals marginal revenue (labeled Q in the upper graph), and its per-unit economic profit is the difference between average revenue AR and average total cost ATC at that point, the difference being P minus C in the graph's notation. With firms making economic profit and with free ...
Likewise, firm 2's reaction function q2=R2(q1). The Cournot-Nash equilibrium occurs where the two reaction functions intersect and both firms are choosing the optimal output given the output of the other firm. The Nash equilibrium is widely used in economics as the main alternative to competitive equilibrium.
The economic concept dates back to Adam Smith and the idea of obtaining larger production returns through the use of division of labor. [2] Diseconomies of scale are the opposite. Economies of scale often have limits, such as passing the optimum design point where costs per additional unit begin to increase.
In economics, output is the quantity and quality of goods or services produced in a given time period, within a given economic network, [1] whether consumed or used for further production. [2] The economic network may be a firm, industry, or nation. The concept of national output is essential in the field of macroeconomics.
Let k be the capital/labour ratio (i.e., capital per capita), y be the resulting per capita output (= ()), and s be the savings rate. The steady state is defined as a situation in which per capita output is unchanging, which implies that k be constant. This requires that the amount of saved output be exactly what is needed to (1) equip any ...
If output increases by the same proportional change as all inputs change then there are constant returns to scale (CRS). For example, when inputs (labor and capital) increase by 100%, output increases by 100%. If output increases by less than the proportional change in all inputs, there are decreasing returns to scale (DRS). For example, when ...