SPRINGS  OF  CALIFORNIA.                 15
                           NATURAL  WATERS.
         USE  OF  TERMS  "MINERAL  WATER"  AND  "PURE  WATER."
         No  natural  water  is  chemically  pure,  even  rain  water  containing
      notable  amounts  of  dust,  ammonia,  and,  especially near  the  coast,
       of saline  material.  All  natural waters  may  therefore  be  said  to  be
       mineral waters.  The terms pure and mineral are often used, however,
       to indicate  the  suitability  of  a  water for some  particular use.  For
       example",  a  water  considered  for  a  municipal or industrial supply is
       called "pure" if it does not contain objectionable amounts of foreign
       matter.  As  waters  with  a  markedly  mineral  taste  and  all  waters
       bottled and sold as drinking water, regardless of their mineral content,
       are customarily termed mineral waters, it follows that a mineral water
       may  be  so  called  because  it  is  notably  free  from  mineral  or  other
      foreign ingredients.
         To  a greater  or less  degree  water  dissolves  practically every sub-
       stance  with  which  it  comes  in  contact.  Temperature  and  pressure
       and the presence of dissolved matter greatly affect the solvent power
       of  water,  tending  to  increase  or  to  decrease  it.  As  natural waters
       encounter  many  minerals  in  their  journeys  through  and  over  the
      ground, nearly all  waters  contain  many mineral  substances,  though
      comparatively  few  of  these  substances  are  present  in  relatively
       large amount.  Furthermore, many waters are saturated with respect
       to  some  of  the  less  soluble  minerals,  but a natural water that will
       dissolve no more of any mineral is rare.
                      MINERAL  ANALYSIS-OF  WATER.
         To make a mineral  analysis of water is  to  determine  the  propor-
       tions  of  the  various  mineral  substances  it  holds  in  solution.  The
       analyst is unable to determine what chemical compounds have been
       dissolved  by  the  water,  nor  can  he  ascertain  by  the  customary
      methods  of  analysis,  what  compounds,  if  any,  exist in  the  solution.
      His  work is limited,  in the  main,  to  the determination,  by indirect
       methods, of certain roots or portions of compounds, known as radicles.
       On  account  of  the  indirect  methods  employed  some  of  the  radicles
      reported in analyses can not definitely be stated to be such,  but are
      merely conventional terms for expressing the results of some chemical
      reaction in which several radicles may have taken part.  With all its
       uncertainties,  however,  the  statement  of  a  mineral  analysis  of  a
       water  is  a  representation  of  the  composition  of  the  water  solution,
       and from this statement can be inferred with  a considerable degree
       of  accuracy much  of  the  story  of  the  water's  journey through  and
       over the earth,  and the effects  that may be expected in various uses
      of the water.
         In  conformity  with  the  modern  form  of  expression  the  analyses
       are presented in this paper in terms  of  the radicles,  the proportions