Science, asked by king729, 1 year ago

there is no dearth of N2 around us but we cannot absorb it directly from the atmosphere. Neither can we live without it. explain diagrammatically the stages through which N2 goes and finally enters our body​


king729: but can you please explain this In easy way

Answers

Answered by arvishaali2004
1

Answer:

Explanation:

  • The goal of disinfection of public water supplies is the elimination of the pathogens that are responsible for waterborne diseases. The transmission of diseases such as typhoid and paratyphoid fevers, cholera, salmonellosis, and shigellosis can be controlled with treatments that substantially reduce the total number of viable microorganisms in the water.
  • While the concentration of organisms in drinking water after effective disinfection may be exceedingly small, sterilization (i.e., killing all the microbes present) is not attempted. Sterilization is not only impractical, it cannot be maintained in the distribution system. Assessment of the reduction in microbes that is sufficient to protect against the transmission of pathogens in water is discussed below.
  • Chlorination is the most widely used method for disinfecting water supplies in the United States. The near universal adoption of this method can be attributed to its convenience and to its highly satisfactory performance as a disinfectant, which has been established by decades of use. It has been so successful that freedom from epidemics of waterborne diseases is now virtually taken for granted. As stated in Drinking Water and Health (National Academy of Sciences, 1977), "chlorination is the standard of disinfection against which others are compared."
  • However, the discovery that chlorination can result in the formation of trihalomethanes (THM's) and other halogenated hydrocarbons has prompted the reexamination of available disinfection methodology to determine alternative agents or procedures (Morris, 1975).
  • The method of choice for disinfecting water for human consumption depends on a variety of factors (Symons et al., 1977). These include:
  • its efficacy against waterborne pathogens (bacteria, viruses, protozoa, and helminths);
  • the accuracy with which the process can be monitored and controlled;
  • its ability to produce a residual that provides an added measure of protection against possible posttreatment contamination resulting from faults in the distribution system;
  • the aesthetic quality of the treated water; and
  • the availability of the technology for the adoption of the method on the scale that is required for public water supplies.
  • Economic factors will also play a part in the final decision; however, this study is confined to a discussion of the five factors listed above as they apply to various disinfectants.

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