Finding Conditions for Factor Returns and Scale Returns

Finding Conditions for Factor Returns and Scale Returns A factor return is the return attributable to a particular common factor, or an element that influences many assets which can include factors like market capitalization, dividend yield, and risk indices, to name a few. Returns to scale, on the other hand, refer to what happens as the scale of production increases over the long term as all inputs are variable. In other words, scale returns represent the change in output from a proportionate increase in all inputs. To put these concepts into play, lets take a look at a production function with a factor returns and scale returns practice problem. Factor Returns and Returns to Scale Economics Practice Problem Consider the production function Q KaLb. As an economics student, you may be asked to find conditions on a and b such that the production function exhibits decreasing returns to each factor, but increasing returns to scale. Lets look at how you might approach this. Recall that in the article Increasing, Decreasing, and Constant Returns to Scale that we can easily answer these factor returns and scale returns questions by simply doubling the necessary factors and doing some simple substitutions. Increasing Returns to Scale Increasing returns to scale would be when we double all factors and production more than doubles. In our example we have two factors K and L, so well double K and L and see what happens: Q KaLb Now lets double all our factors, and call this new production function Q Q (2K)a(2L)b Rearranging leads to: Q 2abKaLb Now we can substitute back in our original production function, Q: Q 2abQ To get Q 2Q, we need 2(ab) 2. This occurs when a b 1. As long as ab 1, we will have increasing returns to scale. Decreasing Returns to Each Factor But per our practice problem, we also need decreasing returns to scale in each factor. Decreasing returns for each factor occurs when we double only one factor, and the output less than doubles. Lets try it first for K using the original production function: Q KaLb Now lets double K, and call this new production function Q Q (2K)aLb Rearranging leads to: Q 2aKaLb Now we can substitute back in our original production function, Q: Q 2aQ To get 2Q Q (since we want decreasing returns for this factor), we need 2 2a. This occurs when 1 a. The math is similar for factor L when considering the original production function: Q KaLb Now lets double L, and call this new production function Q Q Ka(2L)b Rearranging leads to: Q 2bKaLb Now we can substitute back in our original production function, Q: Q 2bQ To get 2Q Q (since we want decreasing returns for this factor), we need 2 2a. This occurs when 1 b. Conclusions and Answer So there are your conditions. You need ab 1, 1 a, and 1 b in order to exhibit decreasing returns to each factor of the function, but increasing returns to scale. By doubling factors, we can easily create conditions where we have increasing returns to scale overall, but decreasing returns to scale in each factor. More Practice Problems for Econ Students: Elasticity of Demand Practice ProblemAggregate Demand Aggregate Supply Practice Problem