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Simple Keynesian Model

Simple Keynesian Model. National Income Determination Four-Sector National Income Model. Outline. Four-Sector Model Import Function M = f(Y) Export Function X = f (Y) Net Exports X - M Aggregate Expenditure Function E = f(Y) Output-Expenditure Approach: Equilibrium National Income Ye.

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Simple Keynesian Model

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  1. Simple Keynesian Model National Income Determination Four-Sector National Income Model

  2. Outline • Four-Sector Model • Import Function M = f(Y) • Export Function X = f (Y) • Net Exports X - M • Aggregate Expenditure Function E = f(Y) • Output-Expenditure Approach: Equilibrium National Income Ye

  3. Outline • Factors affecting Ye • Expenditure Multipliers k E • Tax Multipliers k T • Balanced-Budget Multipliers k B • Injection-Withdrawal Approach: Equilibrium National Income Ye

  4. Four-Sector Model • With the introduction of the foreign sector (i.e. w/ households C, firms I, government expenditure G) aggregate expenditure E consists of one more component, net exportsX- M. E = C + I+ G + (X - M) • Still, the equilibrium condition is Planned Y = Planned E

  5. Import Function • Imports M is usually assumed to be a function of national income Y. • M = M’ • M = mY • M = M’ + mY • M and Y are assumed to be positively correlated. • M = M’ + mY is the typical form being used

  6. Import Function • Autonomous Imports M’ • this is the y-intercept of the import function • M’is an exogenous variable, i.e., independent of the income level Y and is determined by forces outside the simple Keynesian 4-sector model

  7. Import Function • Marginal Propensity to Import MPM = m • this is defined as the change in imports per unit change in income Y, i.e., m = M / Y • it is the slope of tangent of the import function • it is usually assumed to be a constant • m= 0 or m is a +ve number • MPM is also an exogenous variable

  8. Import Function • Average Propensity to Import APM • it is the ratio of total imports to total income, i.e., APM = M / Y • it is the slope of ray of the import function • APM  when Y  • except M = mY when MPM = APM = m

  9. Import Functions M = M’ y-intercept = M’ slope of tangent = 0 slope of ray  as Y  M = mY y-intercept = 0 slope of tangent = m slope of ray = m M = M’ + mY y-intercept = M’ slope of tangent = m slope of ray  as Y  M M M Y Y Y

  10. Export Function • X = f (Y) • this is a relationship between the amount of exports X and national income Y • it is usually assumed to be an exogenous function X = X’ • We always consider the amount of net exports, i.e., X - M • Net exports = X - M = X’ - M’ - mY

  11. Net Exports • When net exports is positive, i.e., when X > M, the external sector BOP is in surplus • When net exports is negative, i.e., when X < M, the external sector BOP is in deficit • When net exports is zero, i.e., when X = M, the external sector BOP is in balance • {Trade deficit/surplus v.s. Budget deficit/surplus}

  12. Net Exports M, X M = M’ + mY External Deficit X = X’ External Surplus How can you determine Ye from this diagram? Y Y1 Y2 Y3

  13. Aggregate Expenditure Function • E = C + I + G + (X - M) • C = C’ + cYd • T = T’ + tY • I = I’ • G = G’ • X = X’ • M = M’ + mY • E =

  14. Aggregate Expenditure Function • E = • E = • E = • E =

  15. Output-Expenditure Approach • In equilibrium Y = E • Y = • ( )Y = • Y = • Y = k E * E’ • k E = • E’ =

  16. Factors affecting Ye • Change in E’ • If X’ E’  E Y  • If M’ E’  E  Y • Change in slope of tangent of E / k E • If m   c-ct- m  E steeper  Y

  17. Import Multiplier k M • It is the ratio of change in national income Y to a change in autonomous import M’ • Y = M’ -1 1 - c - m + ct

  18. Injection-Withdrawal Approach S, T, M, I, G, X S = -C’+cT’-T’ + (1-c)Y if T = T’ I+G+X=I’+G’+X’ M= M’+ mY T = T’ Y

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