Application of requirements

Consider, for example, the transaction made between a person purchasing a replacement lamp for a motor vehicle. How might these requirements apply in such a case  

1 Define what constitutes a contract for your organization. 

2 Determine when a formal review of a contract is necessary. 

4 Prepare a procedure for conducting formal contract reviews. 

5 Determine which functions in the organization should participate in contract reviews. 

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Variation in quality and delivery performance will reduce through common application of requirements for ... 

Failure modes analysis Statistical process control Measurement systems analysis Employee motivation On-the-job training Efficiency will increase through common application of requirements for Continuous improvement in cost Continuous improvement in productivity Employee motivation On-the-job training... 

Federal Facility Compliance Act of 1992 Written to amend the Solid Waste Disposal Act, in order to clarify provisions concerning the application of requirements and sanctions to federal facilities. 

Application of required redundancy and voting logic to improve availability... 

Section 3 provides recormnendations on the application of requirements for management of safety to computer based systems important to safety. 

APPLICATION OF REQUIREMENTS FOR MANAGEMENT OF SAFETY TO COMPUTER BASED SYSTEMS... 

I-l. Selected safety functions for research reactors are shown in Table 1-1. Safety functions are the essential characteristic functions associated with SSCs for ensuring the safety of the reactor. The safety functions are appropriate for the particular design of reactor. Some safety functions are not relevant for some types of research reactor. The safety functions are one of the key elements in grading the application of requirements to SSCs. The safety functions that each SSC fulfils have to be identified. The selected safety functions presented in Table 1-1 are for consideration by the operating organization for a research reactor. A justification needs to be made for not providing for the fulfilment of any of these safety functions for a particular reactor. 

The wells provide the conduit for production from the reservoir to the surface, and are therefore the key link between the reservoir and surface facilities. The type and number of wells required for development will dictate the drilling facilities needed, and the operating pressures of the wells will influence the design of the production facilities. The application of horizontal or multi-lateral wells may where appropriate greatly reduce the number of wells required, which in time will have an impact on the cost of development. 

An example of an application of CAO is its use in optimising the distribution of gas in a gas lift system (Fig. 11.3). Each well will have a particular optimum gas-liquid ratio (GLR), which would maximise the oil production from that well. A CAO system may be used to determine the optimum distribution of a fixed amount of compressed gas between the gas lifted wells, with the objective of maximising the overall oil production from the field. Measurement of the production rate of each well and its producing GOR (using the test separator) provides a CAO system with the information to calculate the optimum gas lift gas required by each well, and then distributes the available gas lift gas (a limited resource) between the producing wells. 

The Supplement B (reference) contains a description of the process to render an automatic construction of mathematical models with the application of electronic computer. The research work of the Institute of the applied mathematics of The Academy of Sciences ( Ukraine) was assumed as a basis for the Supplement. The prepared mathematical model provides the possibility to spare strength and to save money, usually spent for the development of the mathematical models of each separate enterprise. The model provides the possibility to execute the works standard forms and records for the non-destructive inspection in complete correspondence with the requirements of the Standard. 

For the repetitive inspections the required hydrotest can only be performed for a limited number of the small cylinders, and even then the drums have to be removed from the line and the cylinders will be supported in defined distances for the weight of the water and the pressurisation. For the new and long cylinders even this is impossible, because they loose due to the additional weight of the water and the over-pressurisation their roundness and balances. Therefore the law in the most countries within and outside of the EU accept as a replacement of the hydrotest an additional application of different NDT methods, which were often done by an ultrasonic measurement of the wall thickness of the cylindrical part and a MT of the flat covers. 

The parameters thus established serve the comparison of different radioscopic systems with regard to their equipment properties. In part III of the standard the established parameters are assigned to different classes of requirements this way minimum requirements on the imaging system used can be gathered for each individual application. 

Part 3 of the Radioscopic Standard is to define the minimum requirements that are placed on a radioscopic system to cover diverse applications. For the past few years, this part has been heavily disputed, the reason being an extreme flexibility in the application of radioscopic inspection systems. A definition of general rules for applications has thus been difficult to achieve. 

As a general rule all products covered by the New Approach directives must bear the CE-marking which symbolises conformity of the products to the requirements of the directive including the relevant certification procedures. The main principles which are basic to the application of the CE-marking can be summarised as follows ... 

A newer and perhaps more useful application of ellipsometry to Langmuir films is their lateral characterization via ellipsometric microscopy [146], A simple modification of the nuU ellipsometer allows one to image features down to 10-/im resolution. Working with a fixed polarizer and analyzer, some domains are at extinction while others are not and appear bright. This approach requires no fluorescent label and can be applied to systems on reflective supports. 

Application of the exact continuum analysis of dispersion forces requires significant calculations and the knowledge of the frequency spectmm of the material dielectric response over wavelengths X = 2irc/j/ around 10-10 nm. Because of these complications, it is common to assume that a primary absorption peak at one frequency in the ultraviolet, j/uv. dominates the dielectric spectrum of most materials. This leads to an expression for the dielectric response... 

The representation of trial fiinctions as linear combinations of fixed basis fiinctions is perhaps the most connnon approach used in variational calculations optimization of the coefficients is often said to be an application of tire linear variational principle. Altliough some very accurate work on small atoms (notably helium and lithium) has been based on complicated trial functions with several nonlinear parameters, attempts to extend tliese calculations to larger atoms and molecules quickly runs into fonnidable difficulties (not the least of which is how to choose the fomi of the trial fiinction). Basis set expansions like that given by equation (A1.1.113) are much simpler to design, and the procedures required to obtain the coefficients that minimize are all easily carried out by computers. 

Unwanted stmctures in the film plane—often found within LB films fonned from simple rodlike molecules or from molecules polymerized after deposition—can be problematic, since many possible applications of such films require a unifonn stmcture within the plane. On the other hand, however, the production of a system in which the stmcture within the plane is so disordered that there exist no stmctural features large enough to cause problems would also render applications possible. In tliree-dimensional materials, for example, both inorganic glasses and many polymers are capable of transmitting light without any appreciable scattering for substantial distances. 

The example above of tire stopped-flow apparatus demonstrates some of tire requirements important for all fonns of transient spectroscopy. These are tire ability to provide a perturbation (pump) to tire physicochemical system under study on a time scale tliat is as fast or faster tlian tire time evolution of tire process to be studied, the ability to synclironize application of tire pump and tire probe on tliis time scale and tire ability of tire detection system to time resolve tire changes of interest. 

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