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A Practical Application of RIMS II Multipliers
![](3D"master05_image001.gif")
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A Practical Application of RIMS II Multipliers
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A Practical Application of RIMS II Multipliers
• "Economic Impact of the 1991 Greater Gulf Sta=
te
Fair," Fairs and <=
/span>Expositions,
34(June 1992), 26-27. (with J. E. "Buddy" McGrew)
• "Impact of Casinos on Crime: The Case of Bilo=
xi,
Mississippi," Jou=
rnal
of Criminal Just=
ice, 24 (1996), 431-436.
• "Estimating Net Lottery Revenues for States,&=
quot; Atlantic Economic Journal, 27 (June 1999), 170-178.
• “Economic Costs of Unmarried Teen Births in
Alabama,” TSU Business and Economic Review, 28 (Winter 2004), 13-18.
• “Proposed LNG terminal as a Coase problem,&#=
8221; Oil, Gas & Energy Quarterly, 52
(June 2004), 807-818.
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• Simple enough to rely on
• A cookbook approach
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• For short term, increased business may be <=
/span>handled via overload, not new hiring, that is:
=
;
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• Non-wage expenditures impact excluded.
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• Multiplier effect in full bloom
• Three scenarios:
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A
Practical Application of RIMS II Multipliers
D=
etermining
development incentiv=
es of
a new industry
by
the Mobile Chamber &
the
Mobile Ind. Develop. Board
by Semoon Chang
University of South Alabama
May 16, 2006
I
really believe
that
accuracy & credibility
is more important
than
inflated impact numbers.
that
accuracy & credibility
is more important
than
inflated impact numbers.
Semoon’s journal publications
on impact estimation …<= /span>
on impact estimation …<= /span>
<=
span
style=3D'font-size:56%'>•"OMB Circular A-94 and Highway Benefit-Cost
Ratios," Journal of
Transportatio=
n Law,
Logistics & Policy, 64(Spring
1997), 316-326.
<=
/span>
<=
span
style=3D'font-size:56%'>•“Economic Impact of a Future College Football
Program,” Jo=
urnal
of Sport Management, 16(July 2002=
),
239-246. (with Shelia
Canode)
<=
span
style=3D'font-size:56%'>•“Impact of the College of Allied Health
Professions on the Local Economy,”
The Internet Journal of Allied Hea=
lth
Sciences and Pr=
actice. Jan 2006. Vol. 4 No. 1 [http://ijahsp.nova.edu]
Selected Issues
•Lack of data (to $investment or jobs) in initial announcement
•Subtract out-of-town purchases (ex. =
$500m LNG terminal)
•Local substitution (ex. Wal-Mart or =
Pro Bass Shop) – only exports
•Job impact of construction lasting <=
span
style=3D'position:absolute;top:45.45%;left:4.08%;width:86.53%;height:54.54=
%'>more than a year - allocate
•Job impact of nonwage expenditures
•Varying tax impact by jurisdiction
•Residence of employees by jurisdiction
Final
model should be
•
•
=
construction
Assume as usual that =
initial numbers are given =
for a new project …
•$1 million of new construction OR
•100 new full-time jobs
•If both are available, dollar figures are better because jobs exclude impact of non-wage expenditures.
Construction budget (i.e., final =
demand) is known, and =
construction period is short …=
________________________________________
Budget Multiplier Impact
Output $1,000,000 =
;
1.9105
•Earnings =
; &n=
bsp;
0.5376 $537,600
Jobs =
; &n=
bsp;
19.1487 19(.1487)
•Wage =
; &n=
bsp; =
;
$28,075
•___________________________=
___________________
<=
span
style=3D'font-size:88%'>•1,000,000 x 0.5376 =3D 537,600
<=
/div>
<=
span
style=3D'font-size:88%'>•1,000,000 x 19.1487 =3D 19 jobs
=
<=
span
style=3D'font-size:88%'>•28,075 =3D 537,600/19.1487 (embedded)
If construction budget (i.e., final =
=
demand) is known, and =
construction period is long …<=
/div>
•________________________________________
• Budget Multiplier Impact
•Output
=
$1,000,000
1.9105 $1,910,500
•Earnings =
; &n=
bsp;
0.5376 $1,027,085
Jobs =
; &n=
bsp;
19.1487 &nb=
sp;
36(.584)
Wage =
; &n=
bsp; =
;
$28,075
___________________________=
___________________
•1,000,000 x 1.9105 =3D 1,910,500
•1,910,500 x 0.5376 =3D 1,027,085
<=
span
style=3D'font-size:75%'>•1,910,500 x 19.1487 =3D 36(.584) jobs
<=
/span>
<=
span
style=3D'font-size:75%'>•1,027,085/36.584 =3D 28,075 (embedded)
To make sure, we contacted …
•one general contractor who just completed <=
/span>$7,980,000 work on school renovation
•workers directly on the job - 90 to 100
•excluding architects who in turn hired surveyor, and engineering firms on civil, <=
/span>structural, mechanical and electrical.
=
<=
span
style=3D'font-size:75%'>•95/7,980,000 x 1,000,000 =3D 12 jobs/$million
=
•Adding surveyor, engineers, and those hired by then, 19 jobs/$million appears reasonable.
•One time $1m (SR) job impact =3D 19
<=
span
style=3D'font-size:75%'>•Annually recurring $1m (LR) job impact =3D 37
If project lasts 3 years & =
the model indicates 1,500 =
job impact …..
•1,500 figure is either misleading or
not clear
•Therefore
•1,500/3 =3D 500
•And explain as
•Annual job impact is 500 for three
years
If jobs only (i.e., direct effect)
are known, and
construction period is long …
[less likely scenario]=
are known, and
construction period is long …
[less likely scenario]=
________________________________________
Jobs Multiplier Impact=
3;
•Employment 100 1.9243 19(.243)<=
span
style=3D'mso-spacerun:yes'>
Wage (embedded) =
; &n=
bsp;
$28,075
Earnings =
;
1.7707 $497,124
•___________________________=
___________________
<=
span
style=3D'font-size:88%'>•100 x 28,075 x 1.7707 =3D 497,124
<=
span
style=3D'font-size:88%'>•Multiplier effect included
Now impact of annual =
operation …
[used manufacturing mulitplie= rs]
[used manufacturing mulitplie= rs]
•Annual sales ($1m) only
•Jobs (100) only
•Jobs & total wages
(100 &
$500,000)
If annual (net export) sales (i.e., =
<=
span
style=3D'font-size:73%'>final demand) are known …
•________________________________________
• Annual Sales Multiplier Impact=
3;
•Output $1,000,000 =
;
1.6963 $1,696,300
•Earnings =
; &n=
bsp;
0.3254 $551,976
Jobs =
; &n=
bsp;
10.8068 &nb=
sp;
18(.332)
Wage =
; &n=
bsp; =
; &n=
bsp;
$30,110
•______________________________________________
=
;
•1,000,000 x 1.6963 =3D 1,696,300
<=
span
style=3D'font-size:75%'>•1,696,300 x 0.3254 =3D 551,976
<=
/div>
<=
span
style=3D'font-size:75%'>•1,696,300 x 10.8068 =3D 18(.332) jobs
<=
/span>
•1,696,300/18.332 =3D 30,110 (embedded)