Solow–Swan model: Difference between revisions
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{| class="sortable wikitable" | {| class="sortable wikitable" | ||
! Name !! Variable !! Unit !! | ! Name !! Variable !! Unit !! Set of possible values !! Rival input? !! Variable type !! Notes | ||
|- | |- | ||
| Output || ''Y'' || Units of GDP (dollar?) || || – || Endogenous || | | Output || ''Y'' || Units of GDP (dollar?) || [0, ∞) || – || Endogenous || | ||
|- | |- | ||
| Physical capital (capital stock) || ''K'' || || || Yes || Endogenous || Physical capital includes things like machines, computers, buildings, etc. | | Physical capital (capital stock) || ''K'' || || [0, ∞) || Yes || Endogenous || Physical capital includes things like machines, computers, buildings, etc. | ||
|- | |- | ||
| Labor || ''L'' || || || Yes || Exogenous || | | Labor || ''L'' || || [0, ∞) || Yes || Exogenous || | ||
|- | |- | ||
| Technology (knowledge) || ''A'', ''T'' || || || No || Exogenous || | | Technology (knowledge) || ''A'', ''T'' || || || No || Exogenous || | ||
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| Growth of ''X'' || <math>g_X = \dot{X}/X = \frac{\frac{\partial X}{\partial t}}{X}</math> || <math>\text{Time}^{-1}</math> || || || | | Growth of ''X'' || <math>g_X = \dot{X}/X = \frac{\frac{\partial X}{\partial t}}{X}</math> || <math>\text{Time}^{-1}</math> || || || | ||
|- | |- | ||
| Population growth || <math>n = \dot L / L</math> || <math>\text{Time}^{-1}</math> || || || | | Population growth || <math>n = \dot L / L</math> || <math>\text{Time}^{-1}</math> || (−∞, ∞) || || | ||
|- | |- | ||
| Depreciation (rate?) || ''δ'', ''d'', ''D'' || Unitless || || | | Depreciation (rate?) || ''δ'', ''d'', ''D'' || Unitless || || | ||
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| Capital per worker || ''k'' = ''K''/''L'' || || || || Endogenous || | | Capital per worker || ''k'' = ''K''/''L'' || || || || Endogenous || | ||
|- | |- | ||
| Fraction saved || ''s'' || Unitless || | | Fraction saved || ''s'' || Unitless || [0, 1] || | ||
|- | |- | ||
| Output per worker || ''y'' = ''Y''/''L'' || || || || Endogenous || | | Output per worker || ''y'' = ''Y''/''L'' || || || || Endogenous || | ||
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| Production function || ''F'' || || || || | | Production function || ''F'' || || || || | ||
|- | |- | ||
| Elasticity of output with respect to capital || ''α'' || Unitless || || | | Elasticity of output with respect to capital || ''α'' || Unitless || (0, 1) || | ||
|} | |} | ||
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TODO show that the model satisfies (1) constant returns to scale; (2) diminishing returns to capital; (3) diminishing returns to labor; (4) the Inada conditions. | TODO show that the model satisfies (1) constant returns to scale; (2) diminishing returns to capital; (3) diminishing returns to labor; (4) the Inada conditions. | ||
A closed form is possible,[https://web.stanford.edu/~chadj/closedform.pdf] but it is possible to play around with the model in non-closed forms to extract useful information. | |||
==Table of comparative statics== | |||
==History== | ==History== | ||
Latest revision as of 19:50, 16 September 2017
The Solow–Swan model is a long-run economic growth model.
Model assumptions
- single-sector economy
- closed economy (no trade)
- no taxation
etc.
Variables in the model
| Name | Variable | Unit | Set of possible values | Rival input? | Variable type | Notes |
|---|---|---|---|---|---|---|
| Output | Y | Units of GDP (dollar?) | [0, ∞) | – | Endogenous | |
| Physical capital (capital stock) | K | [0, ∞) | Yes | Endogenous | Physical capital includes things like machines, computers, buildings, etc. | |
| Labor | L | [0, ∞) | Yes | Exogenous | ||
| Technology (knowledge) | A, T | No | Exogenous | |||
| Consumption | C | |||||
| Investment | I | |||||
| Amount saved | S | |||||
| Growth of X | ||||||
| Population growth | (−∞, ∞) | |||||
| Depreciation (rate?) | δ, d, D | Unitless | ||||
| Capital per worker | k = K/L | Endogenous | ||||
| Fraction saved | s | Unitless | [0, 1] | |||
| Output per worker | y = Y/L | Endogenous | ||||
| Time | t | Time, e.g. years | ||||
| Production function | F | |||||
| Elasticity of output with respect to capital | α | Unitless | (0, 1) |
Mathematical formalism
- (sometimes also )
TODO show that the model satisfies (1) constant returns to scale; (2) diminishing returns to capital; (3) diminishing returns to labor; (4) the Inada conditions.
A closed form is possible,[1] but it is possible to play around with the model in non-closed forms to extract useful information.
Table of comparative statics
History
Commentary
See also
External links
- Solow–Swan model (Wikipedia)