1 is-lm model miscellaneous. 2 simple keynesian model v.s. is-lm model g ’ (b = 0) c, i, g, g’,...
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![Page 1: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/1.jpg)
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IS-LM MODEL
Miscellaneous
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Simple Keynesian Model v.s.IS-LM Model G’ (b = 0)
C, I, G, G’, AD
Y
r
Y
IS1
Slope = s/b =
b = I/r = 0
(C’-cT’+I’+G’)/s(C’-cT’+I’+G’)/s
IS2 LM
![Page 3: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/3.jpg)
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Simple Keynesian Model v.s.IS-LM Model G’ (b = 0)
Simple Keynesian Model Ye = kE G’ = G’/s
IS-LM Model Ye = kE G’ = G’/s interest rate has increased but
investment would not decrease since b=0, i.e., investment is perfectly interest inelastic
No crowding-out effect
![Page 4: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/4.jpg)
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Simple Keynesian Model v.s.IS-LM Model G’ (b 0)
C, I, G, G’, I’,AD
Y
r
Y
(C’-cT’+I’+G’)/s
Slope = s/b
IS1
(C’-cT’+I’+G’)/s
IS2 LM
![Page 5: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/5.jpg)
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Simple Keynesian Model v.s.IS-LM Model G’ (b 0)
Simple Keynesian Model Ye kE G’ G’/s
IS-LM Model Shift of the IS curve: Y = kE G’ = G’/s Ye kE G’ G’/s interest rate has increased and investment would
decrease since b 0, the IS-LM multiplier = Ye/ G’ = crowding-out effect
1
s+b (d/e)
![Page 6: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/6.jpg)
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Simple Keynesian Model v.s.IS-LM Model G’ (e = )
C, I, G, G’, AD
Y
r
Y
(C’-cT’+I’+G’)/s(C’-cT’+I’+G’)/s
Slope = d/e = 0
e = Ma/r =
Liquidity Trap
d = Mt/Y = 0
LM
IS1 IS2
![Page 7: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/7.jpg)
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Simple Keynesian Model v.s.IS-LM Model G’ (e = )
Simple Keynesian ModelYe = kE G’ = G’/s
IS-LM ModelYe = kE G’ = G’/s• Mt has increased when Y, normally, interest rate has to
increase to induce people to hold less Ma, as r would raise the return from holding bond
• However, when there’s a liquidity trap, people’s demand for money as an asset, which provides liquidity, is unlimited (e = Ma/r = ) , they would hold as much Ma as possible, r would remain constant, thus no crowding-out effect.
![Page 8: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/8.jpg)
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Simple Keynesian Model v.s.IS-LM Model G’ (d = 0 )
The diagram is the same as slide no.6 Simple Keynesian Model
Ye = kE G’ = G’/s
IS-LM ModelYe = kE G’ = G’/s• When there’s an increase in government expenditure,
income increase by kE G’ , but transaction demand for money would not increase (d = Mt/Y = 0), Ma need not decrease and r need not increase. With the same interest rate, there’s no crowding-out effect.
![Page 9: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/9.jpg)
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Simple Keynesian Model v.s.IS-LM Model G’ (Vertical LM)
C, I, G, G’, I’,AD
Y
r
Y
(C’-cT’+I’+G’)/s
Slope = d/e =
d=Mt/Y=
e=Ma/r=0
IS1
(C’-cT’+I’+G’)/s
IS2 LM
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Simple Keynesian Model v.s.IS-LM Model G’ (Vertical LM)
Simple Keynesian ModelYe = 0
IS-LM ModelYe = 0• Full Crowding Out Effect • When d=Mt/Y=, G’ Y by kEG’ Mt by so Y
has to reduce to the original level • When e=Ma/r=0, G’ Y by kEG’ Mt but Ma would
not decrease, so Mt has to reduce to the original level to restore equilibrium in the money market
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Simple Keynesian Model v.s.IS-LM Model G’ = T’ (b = 0)Balanced-Budget ChangeC, I, G, G’, T’, AD
Y
r
Y
IS1
Slope = s/b =
b = I/r = 0
(C’-cT’+I’+G’)/s(C’-cT’+I’+G’)/s
IS2 LMIS3
![Page 12: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/12.jpg)
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Simple Keynesian Model v.s.IS-LM Model Simple Keynesian Model
Cannot be used to analyze monetary policy
IS-LM Model Can be used to analyze monetary policy
![Page 13: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/13.jpg)
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Demand CurveP
Qd
Slope of tangent = P/Qd = 0
Ed = (Qd/Qd)/(P/P) =
It measures the responsiveness of Qd of a good to a change in the price of the good
Ed = slope of ray / slope of tangent
![Page 14: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/14.jpg)
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Deriving the IS FunctionTwo-Sector Injection = WithdrawalI = S
r
Y
S
I
I= I’ - br
y-intercept =I’/b
x-intercept = I’
slope =1/b
b = I/r
J = W
I = S
C’ = 0 = S’
S = sY
slope = s
s =S/Y
*
*
IS
y-intercept = I’/b
x-intercept = I’/s
slope = s/b
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Deriving the IS FunctionFour-Sector Injection = WithdrawalI + G + X = S + T + M
r
YJ
J = G’ + X’ + I’ - br
x-intercept = G’+X’+I’
slope = 1/b
b = I/r
J = W
*
IS
x-intercept
slope = s/b
W = S’ - sT’ + T’ + M’ + sY
*
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Deriving the IS FunctionThree-Sector (w/ b = 0) Injection = Withdrawal
I + G = S + T r
W
J Y
J = I’ + G’
b = 0 = I/r
slope =1/b = **
IS:
slope = s/b =
Y =
x-intercept =
What happens when
there’s G’?
![Page 17: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/17.jpg)
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Deriving the IS FunctionThree-Sector (w/ b = ) Injection = WithdrawalI + G = S + T
W
YJ
rb = = I/r
slope = 1/b =0
r is a constant
* *
IS
slope = s/b = 0
What happens when
there’s G’?
![Page 18: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/18.jpg)
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Deriving the IS FunctionThree-Sector (w/ s = 0) Injection = WithdrawalI + G = S + T
S = S’
s = S/Y = 0
slope = 0
W = S’ + T’
Y
W
J
r
* *IS
slope = s/b = 0
What happens when
there’s G’?
![Page 19: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/19.jpg)
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Deriving the IS FunctionThree-Sector (w/ s = ) Injection = WithdrawalI + G = S + T
r
W
J Y
s= S/Y=
slope =
**
IS
slope = s/b =
What happens when
there’s G’?
![Page 20: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/20.jpg)
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Deriving the LM FunctionMs = Md = Ma + Mte = Liquidity Trap
r
Y
Mt
Ma
e = Ma/r =
slope = 1/e = 0
* *
LM
slope = d/e = 0
What happens when
there’s Ms’?
![Page 21: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/21.jpg)
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Deriving the LM FunctionMs = Md = Ma + Mtd = 0
r
Y
Mt
Ma
d = Mt/Y = 0
slope = 0
* *
LM
slope = d/e =0
What happens when
there’s Ms’?
![Page 22: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/22.jpg)
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Deriving the LM FunctionMs = Md = Ma + Mte = 0
r
Y
Mt
Ma
e = Ma/r = 0
slope = 1/e = **
LM
slope = d/e =
What happens when
there’s Ms’?
![Page 23: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/23.jpg)
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Deriving the LM FunctionMs = Md = Ma + Mtd =
r
Y
Mt
Ma
d = Mt/Y =
slope =
**
LM
slope = d/e =
What happens when
there’s Ms’?
![Page 24: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/24.jpg)
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Deriving the LM FunctionMs = Md = Ma + Mte = when r to a low level liquidity trap
r
Y
Mt
Ma
**
LM
slope = d/e
* LMslope = d/e = 0
![Page 25: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/25.jpg)
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1990 A#13
Which of the following correctly explains the rightward shift of the asset demand function from MA0 to MA1?
A. a rise in the interest rateB. a rise in the marginal efficiency of investment
C. an increase in the sale of government bondsD. a rise in the risk of holding bonds
Asset demand for money
Interest Rate MA0 MA1
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1990 A#30 Refer to the diagram below:
Which of the following statements is INCORRECT?A. The expenditure multiplier will increaseB. The IS curve will shift to the right.C. The average propensity to save will increaseD. There will be a rise in realized injection
S
I+G
(I+G)’
Y
S, I, G S = saving
I = investment
G = government expenditure
Y = income
![Page 27: 1 IS-LM MODEL Miscellaneous. 2 Simple Keynesian Model v.s. IS-LM Model G ’ (b = 0) C, I, G, G’, AD Y r Y IS 1 Slope = s/b = b = I/r = 0 (C’-cT’+I’+G’)/s](https://reader035.vdocument.in/reader035/viewer/2022062422/56649e765503460f94b78111/html5/thumbnails/27.jpg)
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1991 A#5 A monetary policy will be more effective if
the liquidity preference function is more ___ and the marginal efficiency of capital function is more ___ .
A. elastic, elasticB. inelastic, inelasticC. inelastic, elasticD. elastic, inelastic
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1991 A#8 An increase in money supply will be likely to lead to an
increase in national income. Which of the following would affect the extent of the change in national income?
(1) the interest elasticity of investment(2) the marginal propensity of withdraw(3) the interest elasticity of demand for moneyA. (1) and (2) onlyB. (1) and (3) onlyC. (2) and (3) onlyD. All of the above
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1992 A#2 Which of the following will have a greater impact upon
equilibrium income when there is a change in the money supply?
A. the flatter the money demand curve; the steeper the investment demand curve; and the larger the MPC
B. the steeper the money demand and investment demand curves; and the smaller the MPC
C. the flatter the money demand and investment demand curves; and the larger the MPC
D. the steeper the money demand curve; the flatter the investment demand curve; ;and the larger the MPC
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1993 A#5 There’re 3 hypothetical economies. They’ve different
sets of IS and LM functionIS Function LM
FunctionEconomy A Y = 1000 - 500r Y = 400 + 500rEconomy B Y = 1800 - 200r Y = 500 + 500rEconomy C Y = 2400 Y = 700 + 500rSuppose the central banks of the 3 economies reduce the
money supply by the same amount. The national income will decrease most in __ and least in __.
A. Economy A, Economy B B. Economy A, Economy CC. Economy B, Economy C D. Economy C, Economy A