SYSTEMS FRAMEWORK OUTCOMES

Table 6.1 Result of regulatory outcomes following the systems framework - chemical acronyms listed in Abbreviations...

However, by locating equation (4.23) in the reproduction schema, the role that the multiplier plays in the reproduction process is explained. Increments in demand, represented by new capital, and financed by the advance of credit money, are the driving force of economic activity. Moreover, this injection of money provides the demand impetus and monetary wherewithal for firms to use up inventories and replace them. Reproduction is oiled by the injection of money demand, the outcome being the replacement of inputs and the expanded reproduction of the system once additional inputs are in place. Income is both sustained and increased in this reproduction process. By focusing on Marx s reproduction schema, a logical attempt can be made to marry increments in income with the reproduction of income in a multiplier framework. 

The framework for presenting the evidence in support of a pharmaceutical care practice managemenf system is clinical, humanistic, and economic outcomes data, which are described next. 

Diastereofacial selection in nucleophilic additions to acyclic aldehydes and ketones is of major importance in synthetic organic chemistry." The greater conformational freedom of acyclic systems makes predictions as to the stereochemical outcome of such reactions more difficult than when the carbonyl group is contained within a cyclic framework. 

The Natural Step Framework and approach are elaborated from the constraints determined by basic principles of sustainability. Backcasting from basic principles of sustainability is a framework that covers relevant aspects of how to plan ahead in a complex system, such as for societies within the biosphere. The approach brings a sustainability perspective to analyses of current practices and materials, suggested solutions and visions, and the strategic evaluation of various solutions and paths to arrive at sustainability. And it brings this new perspective in with opportunities for improved economic outcomes. 

Two additional conmiciits apply at tliis point. First, there is a conceptual difference between the probabilistic element in quantum and classic statistical physics. For instance, in quantum mechanics, the outcome of a measurement of properties even of a single particle can be known in principle only w ith a certain probability. In classic mechanics, on the other hand, a probabilistic element is usually introduced for many-particle systems where we would in principle bo able to specify the state of the system with absolute certainty however, in practice, this is not possible because we are dealing wdth too many degrees of freedom. Recourse to a probabilistic description within the framework of classic mechanics must therefore be regarded a matter of mere convenience. The reader should appreciate this less fundamental meaning of probabilistic concepts in classic as opposed to quantiun mechanics. 

This need for reporting according to the Water Framework Directive puts additional demands on monitoring beyond those previously stated. For instance, the monitoring must be performed in different lake types also, the monitoring must preferably be done by intercalibrated quality elements. In Sweden we have adjusted our aquatic monitoring system to be in accordance with the obligations of the Water Framework Directive. The outcome of this revision is presented in Section 2.1.6. 

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