Handbook of Chemistry, for School and Home UseWoolworth, Ainsworth, & Company, 1869 - 205 Seiten |
Im Buch
Seite 3
... tube into the jar , which has been previously filled with water , and in- Fig . 1 . verted over the trough . When the jar is full of gas , raise it from the water , and apply a lighted taper to its mouth . The gas takes fire with a ...
... tube into the jar , which has been previously filled with water , and in- Fig . 1 . verted over the trough . When the jar is full of gas , raise it from the water , and apply a lighted taper to its mouth . The gas takes fire with a ...
Seite 5
... comes from the union of the hydrogen and the oxygen . This shows that there is nothing but oxygen and hydrogen in water . 3. Ammonia . Fill with chlorine a long glass tube COMPOUNDS AND ELEMENTS . 5 OXYGEN HYDROGEN WATER.
... comes from the union of the hydrogen and the oxygen . This shows that there is nothing but oxygen and hydrogen in water . 3. Ammonia . Fill with chlorine a long glass tube COMPOUNDS AND ELEMENTS . 5 OXYGEN HYDROGEN WATER.
Seite 6
... tube , Fig . 4 . — - closed at one end . Close the other end with a cork , through which passes a drop- ping tube . ( Figure 4. ) If , now , a little ammonia be dropped into the tube , flashes of light and dense white fumes appear ...
... tube , Fig . 4 . — - closed at one end . Close the other end with a cork , through which passes a drop- ping tube . ( Figure 4. ) If , now , a little ammonia be dropped into the tube , flashes of light and dense white fumes appear ...
Seite 8
... tube ( Figure 5 ) with a mixture of hydrogen and oxy- gen , using more than twice as much hydrogen as oxygen . Explode the mix- ture by means of an electric spark from a Leyden jar . The hydrogen and the oxygen combine to form water ...
... tube ( Figure 5 ) with a mixture of hydrogen and oxy- gen , using more than twice as much hydrogen as oxygen . Explode the mix- ture by means of an electric spark from a Leyden jar . The hydrogen and the oxygen combine to form water ...
Seite 16
... tube H , and the oxygen through the tube 0 ; and it will be seen that the two can mix only at the mouth of the jet where they are burned , so that there is no dan- ger of an explosion . The gases may be kept in a gas- ometer ( Figure 9 ) ...
... tube H , and the oxygen through the tube 0 ; and it will be seen that the two can mix only at the mouth of the jet where they are burned , so that there is no dan- ger of an explosion . The gases may be kept in a gas- ometer ( Figure 9 ) ...
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acetic acetic acid affinity alcohol alkali allotropic alloy aluminic ammonia anhydride animal antimony atmosphere atomic weight atoms of hydrogen becomes bismuth bivalent burning calcic calcium called candle carbonic acid charcoal chemical chloric acid chloride coal coal-gas color combination combustion compounds contains converted copper crystals cylinder decomposition diastase dissolves distillation earth elements exposed fermentation filled flame flask furnace gases H₂O heat hydrate hydric sulphide hydrogen insoluble iron lead light lime liquid magnesium manganese manufacture matter melted mercury metal mixed mixture molecules molecules of H2O muriatic acid nitrate nitric acid nitrogen obtained oxide oxygen passes phosphorus plant platinum plumbic potassic potassium prepared properties pure quantivalence reverberatory furnace salt silicates silver small quantity soda soda-ash sodic sodium solid soluble in water solution starch substances sugar sulphate sulphuric acid symbol takes fire trivalent univalent vapor vegetable volatile wood zinc