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4.1.2.3.1 Lösungen |
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4-3. Berechne die Molare Masse nachstehender Verbindungen |
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| a) | Silberchlorid AgCl | 143,321 | g/mol |
| b) | Aluminiumoxid Al2O3 | 101,9613 | g/mol |
| c) | Phenol C6H5OH | 94,113 | g/mol |
| d) | Sauerstoff O2 | 31,9988 | g/mol |
| e) | Bariumsulfat BaSO4 | 233,39 | g/mol |
| f) | Stickstoff N2 | 28,0134 | g/mol |
| g) | Nitrobenzol C6H5NO2 | 123,111 | g/mol |
| h) | Harnstoff CO(NH2)2 | 60,055 | g/mol |
| i) | Calciumfluorid CaF2 | 78,08 | g/mol |
| k) | Aceton, Propanon, CH3-CO-CH3 | 58,080 | g/mol |
| l) | Natriumhydrogencarbonat NaHCO3 | 84,007 | g/mol |
| m) | Bariumhydroxid-8-hydrat Ba(OH)2*8H2O | 315,47 | g/mol |
| n) | Magnesiumammoniumphosphat-6-hydrat Mg(NH4)PO4*6H2O | 245,406 | g/mol |
| o) | Kaliumaluminiumsulfat-12-hydrat KAl(SO4)2*12H2O ("Alaun") | 474,38 | g/mol |