Linear Approximation

Background

Linear approximation refers to the method of approximating a complex, often nonlinear function with a linear one. This technique simplifies the function, making it easier to analyze and work with, particularly in the context of economic models.

Historical Context

Linear approximation has roots in mathematical analysis, particularly in the study of calculus and infinite series. The concept is closely linked to the work of Isaac Newton and Brook Taylor, who developed the Taylor expansion—a fundamental tool for linear approximation. Economists have adopted these mathematical techniques to render complex models more analytically tractable.

Definitions and Concepts

Linear approximation involves creating a linear function that closely matches the value and behavior of a more complicated function near a specified point. Mathematically, it is represented by the first-order Taylor expansion, where higher-order terms are neglected.

Formally: \[ f(x) \approx f(a) + f’(a)(x - a) \]

Here, \( f(x) \) is the original function, \( a \) is the point of approximation, \( f(a) \) is the function value at \( a \), and \( f’(a) \) is the derivative of the function at \( a \).

Major Analytical Frameworks

Classical Economics

• Uses linear approximation to simplify dynamical systems models, such as the Cobb-Douglas production function, making them easier to interpret and solve.

Neoclassical Economics

• Employs linear approximation broadly in utility maximization and cost minimization problems, enabling the linearization of complex utility and cost functions around equilibrium points.

Keynesian Economics

• Uses linear models to expedite analysis of aggregate demand and supply functions, enhancing policy impact prediction accuracy while studying different time scales.

Marxian Economics

• Although less reliant on linear approximation from a pure theoretical stance, it can apply simplified linear forms to analyze labor value dynamics under certain market conditions.

Institutional Economics

• Often deals with nonlinear systems but linear approximation helps in understanding policy impact within an economic institution framework, e.g., assessing the factors influencing transaction costs.

Behavioral Economics

• Linear approximation applies in assessing decision outcomes based on behavioral models by linearizing non-standard utility functions to iterative solving over decision impacts.

Post-Keynesian Economics

• Involves linear approximation to steady states or long-run growth paths, helping explain deviations due to practical long-term considerations.

Austrian Economics

• Uses linear models for initial approximations, especially when dealing with knowledge dispersal, temporal aspects of capital, and business cycle theories.

Development Economics

• Linear approximation simplifies growth models and helps evaluate policy impacts in setting objectives for developing economies.

Monetarism

• Synonymous with velocity of money and dynamic macroeconomic models benefiting from linear approximating specific regions for policy analysis.

Comparative Analysis

Compare linear approximation methods across different economic models shows strengths in reducing complexity and guiding initial analysis, yet potential pitfalls can include oversimplification and neglecting critical nonlinearities which might skew policy interpretations.

Case Studies

Empirical research often employs linear regression modeling in economic analysis:

• GDP predictions from linearized growth models.
• Smoothing financial time series data.

Suggested Books for Further Studies

1. “Mathematics for Economists” by Carl P. Simon and Lawrence Blume - Comprehensive overview including the use of linear approximations.
2. “Economic Dynamics: Theory and Computation” by John Stachurski - Discusses how to apply linear approximation in dynamic economic models.
3. “Mathematics for Economics” by Michael Hoy, John Livernois, Chris McKenna, Ray Rees, and Thanasis Stengos - Delves into various mathematical tools including linear approximations for economics.

Related Terms with Definitions

• Taylor Series: An infinite sum of terms based on the derivatives of a function at a single point used for approximations.
• Linear Regression: A model used in statistics for predicting the relationship between a dependent variable and one or more independent variables linearly.
• Dynamic Equilibrium: A state in a dynamic model where variables of the system remain constant over time.
• Stationary Point: A point where the first derivative of a function is zero, providing potential for local maxima or minima useful in approximations.

By structuring linear approximation within these economically relevant frameworks, practitioners can facilitate more accurate and manageable model evaluations.