Inada conditions

In macroeconomics, the Inada conditions, named after Japanese economist Ken-Ichi Inada,^[1] are assumptions about the shape of a production function that guarantee the stability of an economic growth path in a neoclassical growth model. The conditions as such had been introduced by Hirofumi Uzawa.^[2]

Given a continuously differentiable function $f\colon X\to Y$ , where $X=\left\{x\colon \,x\in \mathbb {R} _{+}^{n}\right\}$ and $Y=\left\{y\colon \,y\in \mathbb {R} _{+}\right\}$ , the conditions are:

the value of the function $f(\mathbf {x} )$ at $\mathbf {x} =\mathbf {0}$ is 0: $f(\mathbf {0} )=0$
the function is concave on $X$ , i.e. the Hessian matrix $\mathbf {H} _{i,j}=\left({\frac {\partial ^{2}f}{\partial x_{i}\partial x_{j}}}\right)$ needs to be negative-semidefinite.^[3] Economically this implies that the marginal returns for input $x_{i}$ are positive, i.e. $\partial f(\mathbf {x} )/\partial x_{i}>0$ , but decreasing, i.e. $\partial ^{2}f(\mathbf {x} )/\partial x_{i}^{2}<0$
the limit of the first derivative is positive infinity as $x_{i}$ approaches 0: $\lim _{x_{i}\to 0}\partial f(\mathbf {x} )/\partial x_{i}=+\infty$ , meaning that the effect of the first unit of input $x_{i}$ has the largest effect
the limit of the first derivative is zero as $x_{i}$ approaches positive infinity: $\lim _{x_{i}\to +\infty }\partial f(\mathbf {x} )/\partial x_{i}=0$ , meaning that the effect of one additional unit of input $x_{i}$ is 0 when approaching the use of infinite units of $x_{i}$

It can be shown that the Inada conditions imply that the elasticity of substitution is asymptotically equal to one (although the production function is not necessarily asymptotically Cobb–Douglas).^[4]^[5]

In stochastic neoclassical growth model, if the production function does not satisfy the Inada condition at zero, any feasible path converges to zero with probability one provided that the shocks are sufficiently volatile.^[6]

References[]

^ Inada, Ken-Ichi (1963). "On a Two-Sector Model of Economic Growth: Comments and a Generalization". The Review of Economic Studies. 30 (2): 119–127. doi:10.2307/2295809. JSTOR 2295809.
^ Uzawa, H. (1963). "On a Two-Sector Model of Economic Growth II". The Review of Economic Studies. 30 (2): 105–118. doi:10.2307/2295808. JSTOR 2295808.
^ Takayama, Akira (1985). Mathematical Economics (2nd ed.). New York: Cambridge University Press. pp. 125–126. ISBN 0-521-31498-4.
^ Barelli, Paulo; Pessoa, Samuel de Abreu (2003). "Inada Conditions Imply That Production Function Must Be Asymptotically Cobb–Douglas". Economics Letters. 81 (3): 361–363. doi:10.1016/S0165-1765(03)00218-0. hdl:10438/1012.
^ Litina, Anastasia; Palivos, Theodore (2008). "Do Inada conditions imply that production function must be asymptotically Cobb–Douglas? A comment". Economics Letters. 99 (3): 498–499. doi:10.1016/j.econlet.2007.09.035.
^ Kamihigashi, Takashi (2006). "Almost sure convergence to zero in stochastic growth models" (PDF). Economic Theory. 29 (1): 231–237. doi:10.1007/s00199-005-0006-1. S2CID 30466341.

Inada conditions

References[]

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