World DynamicsExamination of the structure of countervailing forces such as population growth, food production, capital investment, natural resources depletion, pollution, etc., at world level when exponential growth rate overburdens the environment - simulates world growth trends by means of a large-scale computer model and shows that a global equilibrium could be achieved if social policies and programmes were chosen taking into account the dynamic characteristics of world social systems. Flow charts. |
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Page 72
... peak about year 2010 and declines as natural resources , population , and capital investment decline . 2060 . ment - in - agriculture fraction . Material standard of living reaches a peak at about year 2000 and then declines . At the peak ...
... peak about year 2010 and declines as natural resources , population , and capital investment decline . 2060 . ment - in - agriculture fraction . Material standard of living reaches a peak at about year 2000 and then declines . At the peak ...
Page 110
... peak population and delays the pollution crisis . 2020 . 20 years and allows population and capital investment to increase further before the pollution limit is reached . In Figure 5-14 the lowered birth rate is introduced along with ...
... peak population and delays the pollution crisis . 2020 . 20 years and allows population and capital investment to increase further before the pollution limit is reached . In Figure 5-14 the lowered birth rate is introduced along with ...
Page 111
... peak population but does not eliminate or delay the pollution crisis . 2060.- With respect to the pollution mode of population collapse , it has already been pointed out that the geographical distributions of capital and population may ...
... peak population but does not eliminate or delay the pollution crisis . 2060.- With respect to the pollution mode of population collapse , it has already been pointed out that the geographical distributions of capital and population may ...
Contents
Introduction | 1 |
Structure of the World System | 17 |
A World Model Structure and Assumptions | 31 |
Copyright | |
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Common terms and phrases
1970 conditions accumulation assumed assumptions behavior birth rate normal birth-control program BRFM BRN1 capital investment CAPITAL UNITS CAPITAL UNITS/PERSON CAPITAL-INVESTMENT DISCARD capital-investment ratio CAPITAL-INVESTMENT-IN-AGRICULTURE FRACTION cause Chapter CI=C CIAF CIGN1 CIMT Club of Rome coefficient computer model crowding ratio curve death rate normal decline DRFM dynamic ECIR effect effective-capital-investment ratio equations equilibrium exponential growth food production food ratio food supply FPMT FRACTION/YEAR in-agriculture fraction increase industrialization INTERPOLATION limit LOGICAL FUNCTION material standard mental models MULTIPLIER DIMENSIONLESS natural resources natural-resource Natural-resource-usage rate negative loop NR=N NREM NREMT NRUN1 POLN1 POLAT pollution absorption pollution crisis pollution ratio POLR pollution-absorption population and capital population density PRESENT ORIGINAL pressures QL-Q ratio CIR RATIO DIMENSIONLESS result rise Section sector shortage social systems SQUARE KILOMETERS standard of living system levels TABHL TABLE LOOK TIME.K tion units per person UNITS/PERSON/YEAR UNITS/YEAR usage rate variable world model world population world system