Econ# Flashcards
Cobb Douglas Production Function
Y = (A)[(K)^(alpha)][(L)^(1-alpha)]
A: TFP
K: qty of capital
L:qty of labor
alpha: %share of GDP paid out to capital
Cobb Douglas Production Function:
Output per worker (Labor Productivity)
Y/L = (A)[(K/L)^(alpha)][(L/L)^(1-alpha)]
where K/L is the capital per worker or capital-labor ratio
CDP: Profit Maximization
occurs when:
MPk = real IR, and
MPL = real wage rate
Marginal product of capital
= (alpha)*(Y/K)
Solow’s growth acctg equation
Output(g) = Technological chg(g) + (alpha)(Capital(g)) +(1-alpha)(labor productivity(g))
Elasticity of output with respect to capital & labor
Growth rate in Potential GDP (Labor productivity method)
Potential GDP(g) = LT labour force(g) + LT labor productivity(g)
Labour Supply
Total #hrs available for work = (Labor force)*(avg hrs worked per worker)
Neoclassical model
(Y/K) output-capital is constant
(Y/K) = (1/s)(&/(1-alpha))+(@)+n
s: % of income saved &: TFP(g) alpha: elasticity of output to capital @: constant rate of depreciation on physical stock n: labor supply(g)
Neoclassical model (steady state growth in outputs)
[&/(1-alpha)] + n
&: TFP(g)
alpha: elasticity of output to capital
n: labor supply(g)
Neoclassical model (savings per worker)
= {[&/(1-alpha)] + @ + n}*k
Steady state in Neoclassical Model over time
k and y grows at &/(1-alpha)
TFP grows at &
