1 econ 240a power 17. 2 outline review projects 3 review: big picture 1 #1 descriptive statistics...
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Econ 240AEcon 240A
Power 17Power 17
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OutlineOutline
• Review
• Projects
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Review: Big Picture 1Review: Big Picture 1• #1 Descriptive Statistics
– Numericalcentral tendency: mean, median, modedispersion: std. dev., IQR, max-minskewnesskurtosis
– Graphical• Bar plots• Histograms• Scatter plots: y vs. x• Plots of a series against time (traces)
Question: Is (are) the variable (s) normal?
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Review: Big Picture 2Review: Big Picture 2
• # 2 Exploratory Data Analysis– Graphical
• Stem and leaf diagrams• Box plots• 3-D plots
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Review: Big Picture 3Review: Big Picture 3• #3 Inferential statistics
– Random variables– Probability– Distributions
• Discrete: Equi-probable (uniform), binomial, Poisson– Probability density, Cumulative Distribution Function
• Continuous: normal, uniform, exponential– Density, CDF
• Standardized Normal, z~N(0,1)– Density and CDF are tabulated
• Bivariate normal– Joint density, marginal distributions, conditional distributions– Pearson correlation coefficient, iso-probability contours
– Applications: sample proportions from polls
),(~:,//ˆ npBxwherenxnsuccessesp
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Review: Big Picture 4Review: Big Picture 4• Inferential Statistics, Cont.
– The distribution of the sample mean is different than the distribution of the random variable
• Central limit theorem
– Confidence intervals for the unknown population mean
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95.0]/96.1/96.1[ nxnxp
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Review: Big Picture 5Review: Big Picture 5• Inferential Statistics
– If population variance is unknown, use sample standard deviation s, and Student’s t-distribution
– Hypothesis tests
– Decision theory: minimize the expected costs of errors• Type I error, Type II error
– Non-parametric statistics• techniques of inference if variable is not normally distributed
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)//(][,0:,0:0 nsxExtHH A
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Review: Big Picture 6Review: Big Picture 6• Regression, Bivariate and Multivariate
– Time series• Linear trend: y(t) = a + b*t +e(t)• Exponential trend: ln y(t) = a +b*t +e(t)• Quadratic trend: y(t) = a + b*t +c*t2 + e(t)• Elasticity estimation: lny(t) = a + b*lnx(t) +e(t)
• Returns Generating Process: ri(t) = c + rM(t) + e(t)
• Problem: autocorrelation– Diagnostic: Durbin-Watson statistic
– Diagnostic: inertial pattern in plot(trace) of residual
– Fix-up: Cochran-Orcutt
– Fix-up: First difference equation
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Review: Big Picture 7Review: Big Picture 7• Regression, Bivariate and Multivariate
– Cross-section• Linear: y(i) = a + b*x(i) + e(i), i=1,n ; b=dy/dx• Elasticity or log-log: lny(i) = a + b*lnx(i) + e(i); b=(dy/dx)/(y/x)• Linear probability model: y=1 for yes, y=0 for no; y =a + b*x +e• Probit or Logit probability model• Problem: heteroskedasticity• Diagnostic: pattern of residual(or residual squared) with y and/or x• Diagnostic: White heteroskedasticity test• Fix-up: transform equation, for example, divide by x
– Table of ANOVA• Source of variation: explained, unexplained, total• Sum of squares, degrees of freedom, mean square, F test
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Review: Big Picture 8Review: Big Picture 8• Questions: quantitative dependent, qualitative
explanatory variables– Null: No difference in means between two or more
populations (groups), One Factor• Graph• Table of ANOVA• Regression Using Dummies
– Null: No difference in means between two or more populations (groups), Two Factors
• Graph• Table of ANOVA• Comparing Regressions Using Dummies
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Review: Big Picture 9Review: Big Picture 9
• Cross-classification: nominal categories, e.g. male or female, ordinal categories e.g. better or worse, or quantitative intervals e.g. 13-19, 20-29– Two Factors mxn; (m-1)x(n-1) degrees of freedom– Null: independence between factors; expected
number in cell (i,j) = p(i)*p(j)*n– Pearson Chi- square statistic = sum over all i, j of
[observed(i, j) – expected(i, j)]2 /expected(i, j)
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SummarySummary
• Is there any relationship between 2 or more variables– quantitative y and x: graphs and regression– Qualitative binary y and quantitative x:
probability model, linear or non-linear– Quantitative y and qualitative x: graphs and
Tables of ANOVA, and regressions with indicator variables
– Qualitative y and x: Contingency Tables
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ProjectsProjects
• Learning by doing
• Learning from one another
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Control of Social ProblemsControl of Social Problems
• HIV/AIDS
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HIV/AIDS HIV/AIDS What can we do to What can we do to
prevent it?!prevent it?!Group 4:Group 4:
Pinar SahinPinar SahinDarren EganDarren EganDavid WhiteDavid WhiteYuan YuanYuan Yuan
Miguel Delgado HelleseterMiguel Delgado HelleseterDavid RhodesDavid Rhodes
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable
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Is there a relationship?Is there a relationship?
#of HIV vs CDC expenditure
y = -78.53x + 104053
R2 = 0.610
10000
20000
30000
40000
50000
60000
70000
80000
500 600 700 800 900 1000
CDC expenditure ($million)
num
ber o
f mor
bidi
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regression of HIV infection and CDC expenditureDependent Variable: INFECTMethod: Least SquaresDate: 11/21/03 Time: 17:10Sample: 1 9Included observations: 9
Variable Coefficient Std. Error t-Statistic Prob.
CDCMONEY -78.5302 23.73235 -3.3089951 0.012959C 104053.4 17180.64 6.05643533 0.000513
R-squared 0.610016 Mean dependent var 48122.44Adjusted R-squared 0.554304 S.D. dependent var 13830.59S.E. of regression 9233.366 Akaike info criterion 21.29216Sum squared resid 5.97E+08 Schwarz criterion 21.33599Log likelihood -93.8147 F-statistic 10.94945Durbin-Watson stat 0.822936 Prob(F-statistic) 0.012959
both of t and F statistic are significant. R-squared is 0.61, which is also fine.
• Both the t and F statistics are significant• R^2 is .61, which is decent Group 4
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HIV/AIDS cases vs. per capita HIV/AIDS cases vs. per capita funding per statefunding per state
Dependent Variable: INFECTMethod: Least SquaresDate: 11/21/03 Time: 18:07Sample: 1 50Included observations: 50
Variable Coefficient Std. Error t-Statistic Prob.
PERCAPFUND 5.605922 2.044885 2.74143582 0.008568C 4.614507 2.447325 1.88553113 0.065418
R-squared 0.135376 Mean dependent var 10.518Adjusted R-squared 0.117363 S.D. dependent var 8.751926S.E. of regression 8.222325 Akaike info criterion 7.090761Sum squared resid 3245.118 Schwarz criterion 7.167242Log likelihood -175.269 F-statistic 7.51547Durbin-Watson stat 1.952071 Prob(F-statistic) 0.008568
# of cases VS per Capital funding per state
0
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0 2 4 6 8 10 12
per Capita funding per state
# o
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Group 4
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Controlling Social ProblemsControlling Social Problems
• This same analytical framework works for various social ills– Morbidity per capita– Offenses per capita– Pollution per capita
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable
Offenses Per Capita
PollutionPer Capita
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Source: Report to the Nation on Crime and Justice
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Source: Report to the Nation on Crime and Justice
control
Causalfactors
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Not Controllable
Controllability is an empiricalquestion that we want to answer
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Optimizing BehaviorOptimizing Behavior
• Cost Curve: – Cost = Damages from Morbidity + Abatement
Expenditures– C = p*M + Exp
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Cost CurveCost Curve
Abatement Exp
Morbidity M
C = p*M + Exp
Exp=0, M=C/p
M=0, Exp=C
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Family of Cost CurvesFamily of Cost Curves
Abatement Exp
Morbidity M
Higher Cost
Lower Cost
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Not Controllable: Don’t Throw Money At It
Higher Cost
Lowest Cost
Optimum: ZeroAbatement
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable: Optimum Expenditures
Lowest Attainable Cost
Optimum
Higher Cost Curve
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable: Optimum Expenditures
Lowest Attainable Cost
Optimum
Higher Cost Curve
Spend too MuchBut Morbidity Is Low
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable: Optimum Expenditures
Lowest Attainable Cost
Optimum
Higher Cost Curve
Spend Too Little, Morbidity Is Too High
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Economic ParadigmEconomic Paradigm
• Step One: Describe the feasible alternatives
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable
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Economic ParadigmEconomic Paradigm
• Step One: Describe the feasible alternatives
• Step Two: Value the alternatives
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Cost CurveCost Curve
Abatement Exp
Morbidity M
C = p*M + Exp
Exp=0, M=C/p
M=0, Exp=C
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Economic ParadigmEconomic Paradigm
• Step One: Describe the feasible alternatives
• Step Two: Value the alternatives
• Step Three: Optimize, pick the lowest cost alternative
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable: Optimum Expenditures
Lowest Attainable Cost
Optimum
Higher Cost Curve
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable: Family of Control Curves
Control CurveAnother TimeOr Another Place
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Behind the Control CurveBehind the Control Curve
• Morbidity Generation– M = f(sex-ed, risky behavior)– M = f(sex-ed, RB)
• Producing Morbidity Abatement– Sex-ed = g(labor)– Sex-ed = g(L)
• Abatement Expendtiture– Exp = wage*labor = w*L
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Morbidity GenerationMorbidity Generation
Morbidity, M
Sex-ed
M = f(Sex-ed, RB)
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Morbidity GenerationMorbidity Generation
Morbidity, M
Sex-ed
M = f(Sex-ed, RB)
Riskier behavior
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Production FunctionProduction Function
Sex-ed
Labor, L
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Expenditure On Wage Bill Expenditure On Wage Bill (Abatement)(Abatement)
Labor, L
Exp
Exp = w*L
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Control CurveControl Curve
Labor,L
Exp
Exp = w*L
Sex-ed
Sex-ed = g(L)
Morbidity, M
M = f(Sex-ed, RB)
ExpenditurefunctionProduction function
Morbidity Generation
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Control CurveControl Curve
Labor,L
Exp
Exp = w*L
Sex-ed
Sex-ed = g(L)
Morbidity, M
M = f(Sex-ed, RB)
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Control CurveControl Curve
Labor,L
Exp
Exp = w*L
Sex-ed
Sex-ed = g(L)
Morbidity, M
M = f(Sex-ed, RB)
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Control CurveControl Curve
Labor,L
Exp
Exp = w*L
Sex-ed
Sex-ed = g(L)
Morbidity, M
M = f(Sex-ed, RB)
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Control CurveControl Curve
Labor,L
Exp
Exp = w*L
Sex-ed
Sex-ed = g(L)
Morbidity, M
M = f(Sex-ed, RB)
Higher Risky Behavior
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ExerciseExercise
• Derive the control curve for the jurisdiction with more risky behavior
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Expansion PathExpansion Path
• Assume the family of control curves is nested, i.e. have the same slope along any ray from the origin
• Assume all jurisdictions place the same value, p, on morbidity
• Assume all jurisdictions are optimizing
• Then the expansion path is a ray from the origin
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable: Family of Control Curves
Control CurveAnother TimeOr Another Place
Expansion path
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable: Family of Control Curves
Control CurveAnother TimeOr Another Place
Expansion path
M
Exp
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Econometric IssuesEconometric Issues
• Two Relationships– Control curve: M = h(exp, RB)– Expansion path: M/EXP = k
• Variation in risky behavior from one jurisdiction to the next shifts the control curve and traces out (identifies) the expansion path
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• Unless price, technology, or optimizing behavior changes from jurisdiction to jurisdiction, there will not be enough movement in the expansion path to trace out(identify) the control curve
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MorbidityPer capita
Abatement ExpenditurePer Capita
Control Curve
The Problem is Controllable: Family of Control Curves
Control CurveAnother TimeOr Another Place
Expansion path
M
Exp
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California Expenditure VS. California Expenditure VS. ImmigrationImmigration
By: Daniel Jiang, Keith Cochran, By: Daniel Jiang, Keith Cochran, Justin Adams, Hung Lam, Steven Justin Adams, Hung Lam, Steven
Carlson, Gregory WiefelCarlson, Gregory Wiefel
Fall 2003Fall 2003
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Immigration VS ExpenditureImmigration VS Expenditure
Immigration VS Expenditure
y = 0.2363x + 814.96
R2 = 0.3733
20000
30000
40000
50000
60000
70000
80000
90000
100000 150000 200000 250000 300000 350000
Immigration
Exp
end
itu
re
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SimultaneitySimultaneity
Immigration
CA EXP
Expenditurefunction
ImmigrationFunction
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Simultaneity ConceptsSimultaneity Concepts• Jointly determined: Morbidity and abatement
expenditure are jointly determined by the control curve and the cost curve
• Morbidity and abatement expenditure are referred to as endogenous variables
• Risky behavior is an exogenous variable• For a 2-equation simultaneous system, at
least one exogenous variable must be excluded from a behavioral (structural) equation to identify it
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TheoryTheory
• Minimize Cost, C = p*M + Exp• Subject to the control curve, M = h(Exp, RB)• Lagrangian, La = p*M + Exp + [M-h(RB, Exp]
• Slope of the control curve = slope of cost curve
pExph
ExphExpLa
pMLa
/1/1/
0/1/
0/
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ModelModel
• Production Function: Cobb-Douglas– Sex-ed = a*Lb *eu b>0
• Abatement Expenditure– Exp = w*L
• Morbidity Abatement– M = d*sex-edm *RBn *ev m<0, n>0
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Model Cont.Model Cont.• Combine production function, expenditure and
morbidity abatement functions to obtain control function– M = d*[a*Lb *eu ]m *RBn *ev
– M = d*[a*(exp/w)b *eu ]m *RBn *ev
– M = d* am * expb*m * w-b*m *RBn *eu*m *ev
– lnM = ln(d*am) + b*m lnexp –b*m lnw + n* lnRB + (u*m + v)
– Or assuming w is constant: y1 = constant1 + b*m y2 + n x + error1
– We would like to show that b*m is negative, i.e. that morbidity is controllable
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Model Cont.Model Cont.
• Expansion Path– M/exp = k*ez
– lnM = -lnexp + lnk + z– Or y1 = constant2 – y2 + error2
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Reduced FormReduced Form• Solve for y1 and y2, the two endogenous
variables• y1 = [constant1 + constant2]/(1-b*m) + n/(1-b*m)
x + (error1 + b*m error2)/(1-b*m)• y2 ={ -[constant1 + constant2]/(1-b*m) +
constant2} - n/(1-b*m) x + {-(error1 + b*m error2)/(1-b*m) + error2}
• There is no way to get from the estimated parameter on x, n/(1 – b*m) to n or b*m, the parameters of interest for the control function
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