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Natural resources are also categorized based on distribution: Ubiquitous resources are found everywhere (for example, air, light, and water). Localized resources are found only in certain parts of the world (for example metal ores and geothermal power). Actual vs. potential natural resources are distinguished as follows:
The Thomistic blend of actuality and potentiality has the characteristic that, to the extent that it is actual it is not potential and to the extent that it is potential it is not actual; the hotter the water is, the less is it potentially hot, and the cooler it is, the less is it actually, the more potentially, hot.
The difference between potential output and actual output is referred to as output gap or GDP gap; it may closely track lags in industrial capacity utilization. [ 4 ] Potential output has also been studied in relation Okun's law as to percentage changes in output associated with changes in the output gap and over time [ 5 ] and in decomposition ...
Potential resources: Resources that are known to exist, but have not been utilized yet. These may be used in the future. For example, petroleum in sedimentary rocks that, until extracted and put to use, remains a potential resource. Actual resources: Resources that have been surveyed, quantified and qualified, and are currently used in development.
In management literature, gap analysis involves the comparison of actual performance with potential or desired performance. [1] If an organization does not make the best use of current resources, or forgoes investment in productive physical capital or technology, it may produce or perform below an idealized potential.
The difference between the two represents the GDP gap. [2] IMF estimates of the 2009 output gaps as % of GDP by country. The GDP gap or the output gap is the difference between actual GDP or actual output and potential GDP, in an attempt to identify the current economic position over the business cycle.
That which is potential can theoretically be made actual by taking the right action; for example, a boulder on the edge of a cliff has potential to fall that could be actualized by pushing it over the edge. In physics, a potential may refer to the scalar potential or to the vector potential. In either case, it is a field defined in space, from ...
Resource estimates are undiscovered volumes, or volumes that have not yet been drilled and flowed to surface. A non-reserve resource, by definition, does not have to be technically or commercially recoverable and can be represented by a single, or an aggregate of multiple potential accumulations, e.g. an estimated geological basin resource. [14]