Linear Algebra/Topic: Input-Output Analysis/Solutions
Solutions
[edit | edit source]Hint: these systems are easiest to solve on a computer.
- Problem 1
With the steel-auto system given above, estimate next year's total productions in these cases.
- Next year's external demands are: up from this year for steel, and unchanged for autos.
- Next year's external demands are: up for steel, and up for autos.
- Next year's external demands are: up for steel, and up for autos.
- Answer
These answers were given by Octave.
- With the external use of steel as and the external use of autos as , we get , .
- ,
- ,
- Problem 2
In the steel-auto system, the ratio for the use of steel by the auto industry is , about . Imagine that a new process for making autos reduces this ratio to .
- How will the predictions for next year's total productions change compared to the first example discussed above (i.e., taking next year's external demands to be for steel and for autos)?
- Predict next year's totals if, in addition, the external demand for autos rises to be because the new cars are cheaper.
- Answer
Octave gives these answers.
- ,
- ,
- Problem 3
This table gives the numbers for the auto-steel system from a different year, 1947 (see Leontief 1951). The units here are billions of 1947 dollars.
used by steel | used by auto | used by others | total | |
value of steel | 6.90 | 1.28 | 18.69 | |
value of auto | 0 | 4.40 | 14.27 |
- Solve for total output if next year's external demands are: steel's demand up 10% and auto's demand up 15%.
- How do the ratios compare to those given above in the discussion for the 1958 economy?
- Solve the 1947 equations with the 1958 external demands (note the difference in units; a 1947 dollar buys about what $1.30 in 1958 dollars buys). How far off are the predictions for total output?
- Answer
-
These are the equations.
-
These are the ratios.
1947 by steel by autos use of steel 0.63 0.09 use of autos 0.00 0.69 1958 by steel by autos use of steel 0.79 0.09 use of autos 0.00 0.70 - Octave gives (in billions of 1947 dollars) and . In billions of 1958 dollars that is and .
- Problem 4
Predict next year's total productions of each of the three sectors of the hypothetical economy shown below
used by farm | used by rail | used by shipping | used by others | total | |
value of farm | 25 | 50 | 100 | 500 | |
value of rail | 25 | 50 | 50 | 300 | |
value of shipping | 15 | 10 | 0 | 500 |
if next year's external demands are as stated.
- for farm, for rail, for shipping
- for farm, for rail, for shipping
- Problem 5
This table gives the interrelationships among three segments of an economy (see Clark & Coupe 1967).
used by food | used by wholesale | used by retail | used by others | total | |
value of food | 0 | 2 318 | 4 679 | 11 869 | |
value of wholesale | 393 | 1 089 | 22 459 | 122 242 | |
value of retail | 3 | 53 | 75 | 116 041 |
We will do an Input-Output analysis on this system.
- Fill in the numbers for this year's external demands.
- Set up the linear system, leaving next year's external demands blank.
- Solve the system where next year's external demands are calculated by taking this year's external demands and inflating them 10%. Do all three sectors increase their total business by 10%? Do they all even increase at the same rate?
- Solve the system where next year's external demands are calculated by taking this year's external demands and reducing them 7%. (The study from which these numbers are taken concluded that because of the closing of a local military facility, overall personal income in the area would fall 7%, so this might be a first guess at what would actually happen.)
References
[edit | edit source]- Leontief, Wassily W. (1951), "Input-Output Economics", Scientific American, 185 (4): 15
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ignored (help). - Clark, David H.; Coupe, John D. (1967), "The Bangor Area Economy Its Present and Future", Reprot to the City of Bangor, ME
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