Money in the Competitive Equilibrium Model Part 1

1. Money in the Competitive Equilibrium ModelPart 1 Ad-Hoc Money Demand in CE Model Hyperinflation Dynamics

2. How can we incorporate money demand into the competitive equilibrium model? • How will the quantity of money affect real variables, prices, and inflation? • What are the implications for monetary policy?

3. Two Approaches for adding money in CE model: (i) Ad-Hoc (exogenous) money demand. (ii) Explicit Money Demand as a choice variable for households. (Search Model / Shortcuts)

4. Ad-Hoc Money Demand • Money Demand Function: where Ly > 0, LR < 0 and R = r + pe • Money Market Equilibrium: y = y* and r = r* from CE model or

5. The ad-hoc money demand function can be “added” onto the CE model. Money market only determines prices: CE Model  y*, r*, c*, N*, w*  Money Market  P* (arrows flow one way only!)

6. A competitive equilibrium in a two-period model with production is and for t = 1,2 solving: (1 eq) (2 eq) (2 eq) (4 eq) (1 eq)

7. Equilibrium Prices: dP/dy* < 0 and dP/dr* > 0 • Productivity Shocks (z) Temp: dy*/dz > 0, dr*/dz < 0  dP/dz < 0 Perm: dy*/dz > 0, dr*/dz = 0  dP/dz < 0

8. Neutrality of Money: dP/P = dM/M inflation rate (p) = money growth (m) • Classical Dichotomy: Real variables are independent from nominal variables (P,M) y*, r*, c*, N*, w*  Money Market  P* (arrows flow one way only!)

9. Inflation Dynamics • Historically many countries around the world have experienced hyperinflaiton. (1) Hyperinflation in 1980s Israel – 370% Argentina – 1,100% Bolivia – 8000% • German Hyperinflation (1/22 – 12/23, 4000%) Daily Newspaper Price $0.30 (1/21) $1,000,000 (10/23) $7,000,000 (11/23)

10. Cagan (1956) asks: (i) Is there a systematic process by which inflation expectations are formed? (ii) How did inflation expectations contribute to hyperinflations? • Note from money market clearing: dP/dpe > 0 • Cagan (log) Money Demand Function:

11. Where g is constant (related to y*, r*) and a > 0 measures the sensitivity (elasticity) of MD to pe. • Money Market-Clearing or (1) • Adaptive Expectation (2) 0 < l < 1 represents the speed of adjustment.

12. Estimation - Solve for pte from (1), lag it to get pt-1e - Substitute into (2) and then plug (2) into (1) (3) Country pa l Germany 322 5.46 0.20 Russia 57 3.06 0.35

13. Stability Substitute pt-1 = pt – pt-1 into (3) and re-arrange: If mt – mt-1 =m constant, then

14. pt is stable (non-explosive) if or al < 1-l < 1. • A sufficient condition for hyperinflation: al > 1 • Germany: al = 1.09 > 1 Russia: al = 1.07 > 1

15. Intuition: • Expected inflation adapts faster to actual inflation (high l) and the more sensitive MD is to expected inflation (high a)  hyperinflation more likely.

16. Rational Expectations • Cagan Model with rational expectations: • Money Market Equilibrium: • Fed Money Supply Rule: where m are constants and e is a random money demand shock created by the Fed.

17. M1 Nominal Money Supply, 2002-2006

18. Monetary Policy: 2004 - 2008

19. Implications (i) Current pt depends upon current and future money supplies mt. (ii) The impact of a shock to the money supply (e) depends upon whether it’s temporary or permanent. * m1small  temp  small effect on pt * m1 close to 1  perm  large effect on pt

20. Nominal versus Real Quantities: Real = Nominal/P Interest Rates: (exact) or r = R – p (approx) where R = nominal rate r = real rate inflation rate =