Transcript f one kite
Chapter 11 Spending and Output in the Short Run McGraw-Hill/Irwin ©2009 The McGraw-Hill Companies, All Rights Reserved Learning Objectives 1. Identify the key assumptions of the basic Keynesian model 2. Discuss the determination of planned investment and planned aggregate expenditure 3. Analyze how an economy reaches short-run equilibrium in the basic Keynesian model 4. Show how a change in planned aggregate expenditure can cause a change in the short-run equilibrium output LO 23- All McGraw-Hill/Irwin 11-2 © The McGraw-Hill Companies, Inc., 2009 Keynesian Model Key assumption: In the short run, firms meet demand at preset prices Firms typically set a price and meet the demand at that price in the short run Eventually, firms change prices when the marginal benefits exceed the marginal costs Basic Keynesian model developed here ignores this fact. LO 23 - 1 McGraw-Hill/Irwin 11-3 © The McGraw-Hill Companies, Inc., 2009 Planned Aggregate Expenditure Planned aggregate expenditure is planned spending on final goods and services Four components of planned aggregate expenditure Consumption (C) by households Investment (I) is planned spending by domestic firms on new capital goods Government purchases (G) are made by federal state and local governments Net exports (NX) is exports minus imports LO 23 - 2 McGraw-Hill/Irwin 11-4 © The McGraw-Hill Companies, Inc., 2009 Planned Investment Example Fly-by-Night Kite produces $5 million of kites per year Expected sales are $4.8 million and planned inventory increase is $0.2 million Capital expenditure of $1 million is planned Planned investment is $1.2 million If actual sales are only $4.6 million Unplanned inventory investment of $0.2 million Actual investment is $1.4 million If actual sales are $5.0 million Unplanned inventory decrease of $0.2 million Actual investment is $1.0 million LO 23 - 2 McGraw-Hill/Irwin 11-5 © The McGraw-Hill Companies, Inc., 2009 Planned Aggregate Expenditure (PAE) Actual spending equals planned spending for Consumption Government purchases of final goods and services Net exports Adjustments between actual and planned spending are accomplished with changes in inventories The general equation for planned aggregate expenditures is PAE = C + IP + G + NX LO 23 - 2 McGraw-Hill/Irwin 11-6 © The McGraw-Hill Companies, Inc., 2009 Consumption Expenditures Consumption (C) accounts for two-thirds of total spending Powerful determinant of planned aggregate spending Includes purchases of goods, services, and consumer durables, but not houses Rent is considered a service C depends on disposable income, (Y – T) LO 23 - 2 McGraw-Hill/Irwin 11-7 © The McGraw-Hill Companies, Inc., 2009 Consumption, 1960 - 2007 LO 23 - 2 McGraw-Hill/Irwin 11-8 © The McGraw-Hill Companies, Inc., 2009 Consumption Function The consumption function is an equation relating planned consumption to its determinants, notably disposable income (Y – T) C = C + (mpc) (Y – T) where C is autonomous consumption spending mpc is the change in consumption for a given change in (Y – T) Autonomous consumption is spending not related to the level of disposable income A change in C shifts the consumption function LO 23 - 2 McGraw-Hill/Irwin 11-9 © The McGraw-Hill Companies, Inc., 2009 Consumption Function C = C + (mpc) (Y – T) C captures wealth effect The effect of changes in asset prices on consumption spending C also captures the effects of interest rates on consumption Higher rates increase the cost of using credit to purchase consumer durables and other items LO 23 - 2 McGraw-Hill/Irwin 11-10 © The McGraw-Hill Companies, Inc., 2009 More Consumption Function C = C + (mpc) (Y – T) Marginal propensity to consume (mpc) is the increase in consumption spending when disposable income increases by $1 mpc is between 0 and 1 for the economy If households receive an extra $1 in income, they spend part (mpc) and save part (Y – T) is disposable income Output minus net taxes LO 23 - 2 McGraw-Hill/Irwin 11-11 © The McGraw-Hill Companies, Inc., 2009 Consumption spending (C) Consumption Function C = C + (mpc) (Y – T) Intercept C slope ΔC C Δ (Y – T) Slope = Δ C / Δ (Y – T) Disposable income (Y – T) LO 23 - 2 McGraw-Hill/Irwin 11-12 © The McGraw-Hill Companies, Inc., 2009 Planned Spending Example PAE = C + IP + G + NX C = C + mpc (Y – T) PAE = C + mpc (Y – T) + IP + G + NX Suppose that planned spending components have the following values C = 620 IP = 220 mpc = 0.8 G = 330 T = 250 NX = 20 PAE = 620 + 0.8 (Y – 250) + 220 + 330 + 20 PAE = 960 + 0.8 Y LO 23 - 3 McGraw-Hill/Irwin 11-13 © The McGraw-Hill Companies, Inc., 2009 Planned Spending Example C = 620 + 0.8 (Y – 250) PAE = 960 + 0.8 Y If Y increases by $1, C will increase by $0.80 PAE increases by 80 cents Planned aggregate expenditure has two parts Autonomous expenditure, the part of spending that is independent of output $960 in our example Induced expenditure, the part of spending that depends on output (Y) 0.8 Y in our example LO 23 - 3 McGraw-Hill/Irwin 11-14 © The McGraw-Hill Companies, Inc., 2009 Planned aggregate expenditure (PAE) Planned Expenditure Graph PAE = 960 + 0.8Y 960 LO 23 - 3 McGraw-Hill/Irwin Slope = 0.8 4,800 Output (Y) 11-15 © The McGraw-Hill Companies, Inc., 2009 Short-Run Equilibrium Short-run equilibrium is the level of output at which planned spending is equal to output Our equilibrium condition can be written Y = PAE Using our previous example, PAE = 960 + 0.8 Y Y = 960 + 0.8 Y 0.2 Y = 960 Y = $4,800 LO 23 - 3 McGraw-Hill/Irwin 11-16 © The McGraw-Hill Companies, Inc., 2009 Planned aggregate expenditure (PAE) Short-Run Equilibrium Graph Y = PAE PAE = 960 + 0.8Y Slope = 0.8 960 LO 23 - 3 McGraw-Hill/Irwin 45o 4,800 Output (Y) 11-17 © The McGraw-Hill Companies, Inc., 2009 Output Greater than Equilibrium Y = PAE PAE = 960 + 0.8Y PAE Suppose output reaches 5,000 Planned spending is less than total output Unplanned inventory increases Businesses slow down production Output goes down 96 0 45o 4,800 5,000 Output (Y) LO 23 - 3 McGraw-Hill/Irwin 11-18 © The McGraw-Hill Companies, Inc., 2009 Output Less than Equilibrium Y = PAE PAE = 960 + 0.8Y PAE Suppose output is only 4,500 Planned spending is more than total output Unplanned inventory decreases Businesses speed up production Output goes up 96 0 4,700 4,800 Output (Y) LO 23 - 3 McGraw-Hill/Irwin 11-19 © The McGraw-Hill Companies, Inc., 2009 Planned aggregate expenditure (PAE) Lower Equilibrium Y = PAE PAE = 960 + 0.8Y PAE = 950 + 0.8Y E F 960 950 45o Recessionary gap 4,750 4,800 Y* Output Y LO 23 - 4 McGraw-Hill/Irwin 11-20 © The McGraw-Hill Companies, Inc., 2009 New Equilibrium – Autonomous consumption, C, decreases by 10 Causes a downward shift in the planned aggregate expenditures curve The economy eventually adjusts to a new lower level of equilibrium spending an output, $4,750 Suppose that the original equilibrium level, $4,800, represented potential output, Y* A recessionary gap develops Size of the recessionary gap is 4,800 – 4,750 = $50 Entire decrease is in Consumption spending Same process applies to a decrease in IP, G, or NX LO 23 - 4 McGraw-Hill/Irwin 11-21 © The McGraw-Hill Companies, Inc., 2009 Japan's Recession and East Asia Japanese recession in 1990s reduced Japanese imports East Asian economies developed by promoting exports The decrease in exports to Japan decreased planned aggregate expenditures in these countries The decrease in planned spending caused the economies to contract to a new, lower level of planned spending and output Japan exported its recession to its neighbors US recessions have similar effects on our major trading partners LO 23 - 4 McGraw-Hill/Irwin 11-22 © The McGraw-Hill Companies, Inc., 2009 Income-Expenditure Multiplier The income – expenditure multiplier shows the effect of a one-unit increase in autonomous expenditure on short-run equilibrium output Previous example Initial planned expenditure = 960 + 0.8 Y New planned expenditure = 950 + 0.8 Y Equilibrium changed from $4,800 to $4,750 A $10 change in autonomous expenditures caused a $50 change in output Multiplier = 5 LO 23 - 4 McGraw-Hill/Irwin 11-23 © The McGraw-Hill Companies, Inc., 2009 Stabilization Policy Stabilization policies are government actions to affect planned spending with the intention of eliminating output gaps Expansionary policies increase planned spending Contractionary policies decrease planned spending Two major stabilization tools are fiscal policy and monetary policy Fiscal policy uses changes in government spending, transfers, or taxes Monetary policy uses changes in the money supply LO 23 - 5 McGraw-Hill/Irwin 11-24 © The McGraw-Hill Companies, Inc., 2009 Government Spending Government spending is part of planned spending Changes in government spending will directly affect planned aggregate expenditures Suppose planned spending decreases $ 10 from Y = 960 + 0.8 Y to Y = 950 + 0.8 Y Equilibrium Y decreases from $4,800 to $4,750 Recessionary gap is $50 Stabilization policy indicates a $10 increase in government spending will restore the economy to Y* at $4,800 LO 23 - 5 McGraw-Hill/Irwin 11-25 © The McGraw-Hill Companies, Inc., 2009 Planned aggregate expenditure (PAE) $10 Fiscal Stimulus Y = PAE PAE = 960 + 0.8Y PAE = 950 + 0.8Y E F 960 950 45o 4,750 4,800 Y* Output Y LO 23 - 5 McGraw-Hill/Irwin 11-26 © The McGraw-Hill Companies, Inc., 2009 Japanese Spending In the 1990s Japan spent over $1 trillion on public works Highways, subways, and transportation projects Concert halls Re-laying cobblestone sidewalks Projects did not end the recession Prevented larger decrease in income Eroded consumer confidence because there was little demand Consumers reduced spending in anticipation of higher taxes in the future LO 23 - 5 McGraw-Hill/Irwin 11-27 © The McGraw-Hill Companies, Inc., 2009 Taxes and Transfers Planned aggregate expenditures are affected by taxes and transfers The effect is indirect, channeled through the effects on disposable income Lower taxes or higher transfers increase disposable income Increases in disposable income lead to higher C LO 23 - 5 McGraw-Hill/Irwin 11-28 © The McGraw-Hill Companies, Inc., 2009 Tax Cuts Stimulate – An Example Original planned spending PAE = 960 + 0.8 Y Autonomous consumption, C, decreases by 10. Recessionary gap is $50. PAE = C + 0.8 (Y – T) + IP + G + NX Tax cut to close the gap must be bigger than $10 Increase disposable income to cause initial increase in spending to be $10 Taxes will have to go down by $12.5 LO 23 - 5 McGraw-Hill/Irwin 11-29 © The McGraw-Hill Companies, Inc., 2009 Chapter 23 Appendix A An Algebraic Solution of the Basic Keynesian Model McGraw-Hill/Irwin ©2009 The McGraw-Hill Companies, All Rights Reserved The Basic Keynesian Model PAE = C + IP + G + NX – C = C + mpc (Y – T) The consumption function is defined by C, autonomous consumption mpc, the marginal propensity to consume, a number between 0 and 1 IP, G, T and NX are given – I=I planned investment – G=G LO 23 - 3 McGraw-Hill/Irwin government purchases – T=T net taxes – NX = NX – net exports 11-31 © The McGraw-Hill Companies, Inc., 2009 Find Short-Run Equilibrium Output – – – – –– PAE = C + mpc (Y – T) + I + G + NX – – – – –– PAE = C – mpc T + I + G + NX + mpc Y Equilibrium condition is PAE = Y – – – – –– Y = C – mpc T + I + G + NX + mpc Y – – – – –– Y – mpc Y = C – mpc T + I + G + NX – – – – –– (1 – mpc) Y = C – mpc T + I + G + NX – – – – –– C – mpc T + I + G + NX Y= (1 – mpc) LO 23 - 3 McGraw-Hill/Irwin 11-32 © The McGraw-Hill Companies, Inc., 2009 Short-Run Equilibrium Example – – – – –– C – mpc T + I + G + NX Y= (1 – mpc) – C = 620 – G = 300 – T = 250 Y= – I = 220 –– NX = 20 mpc = 0.8 620 – 0.8 (250) + 220 + 300 +20 (1 – 0.8) Y = 960 / 0.2 = 4,800 LO 23 - 3 McGraw-Hill/Irwin 11-33 © The McGraw-Hill Companies, Inc., 2009 Chapter 23 Appendix B The Multiplier in the Basic Keynesian Model McGraw-Hill/Irwin ©2009 The McGraw-Hill Companies, All Rights Reserved The Income and Expenditure Multiplier Suppose autonomous spending decreases $10 and mpc is 0.8 First decrease in spending is $10 Leads to a decrease in output of $10 Second decrease in spending is $8 Third decrease is $6.40, etc. Sum of the decreases in spending 10 + 8 + 6.4 + 5.12 + … = 10 [1 + 0.8 + (0.8)2 + (0.8)3…] LO 23 - 4 McGraw-Hill/Irwin 11-35 © The McGraw-Hill Companies, Inc., 2009 Income and Expenditure Multiplier To find the sum of the series, we need a relationship when x is between 0 and 1 1 2 3 4 1+x+x +x +x +…= = multiplier (1 – x) In our case, x = 0.8 10 [1 + 0.8 + (0.8)2 + (0.8)3…] = 10 1 1 = 10 (1 – 0.8) (1 – x) = 10 (1 / 0.2) = 10 (5) = 50 In this case, the multiplier is 5 LO 23 - 4 McGraw-Hill/Irwin 11-36 © The McGraw-Hill Companies, Inc., 2009