(a)
Interpretation:
Grams in
Concept Introduction:
Ionic compounds in aqueous state are capable of conducting electricity. Strong electrolytes dissociate completely and can conduct electricity faster whereas weak electrolytes do not dissociate completely and conducts less electricity. In order to denote concentration, terms such as equivalent and milli equivalent are used. Molar mass when divide by ionic charge gives equivalent of any ion. For a positive ion. The number of equivalent of the positive ion will be always equal to the number of equivalent of the negative ions.
(b)
Interpretation:
Grams in
Concept introduction:
Ionic compounds in aqueous state are capable of conducting electricity. Strong electrolytes dissociate completely and can conduct electricity faster whereas weak electrolytes do not dissociate completely and conducts less electricity. In order to denote concentration, terms such as equivalent and milli equivalent are used. Molar mass when divide by ionic charge gives equivalent of any ion. For a positive ion. The number of equivalent of the positive ion will be always equal to the number of equivalent of the negative ions.
(c)
Interpretation:
Grams in
Concept introduction:
Ionic compounds in aqueous state are capable of conducting electricity. Strong electrolytes dissociate completely and can conduct electricity faster whereas weak electrolytes do not dissociate completely and conducts less electricity. In order to denote concentration, terms such as equivalent and milli equivalent are used. Molar mass when divide by ionic charge gives equivalent of any ion. For a positive ion. The number of equivalent of the positive ion will be always equal to the number of equivalent of the negative ions.
(d)
Interpretation:
Grams in
Concept introduction:
Ionic compounds in aqueous state are capable of conducting electricity. Strong electrolytes dissociate completely and can conduct electricity faster whereas weak electrolytes do not dissociate completely and conducts less electricity. In order to denote concentration, terms such as equivalent and milli equivalent are used. Molar mass when divide by ionic charge gives equivalent of any ion. For a positive ion. The number of equivalent of the positive ion will be always equal to the number of equivalent of the negative ions.
(e)
Interpretation:
Grams in
Concept introduction:
Ionic compounds in aqueous state are capable of conducting electricity. Strong electrolytes dissociate completely and can conduct electricity faster whereas weak electrolytes do not dissociate completely and conducts less electricity. In order to denote concentration, terms such as equivalent and milli equivalent are used. Molar mass when divide by ionic charge gives equivalent of any ion. For a positive ion. The number of equivalent of the positive ion will be always equal to the number of equivalent of the negative ions.
(f)
Interpretation:
Grams in
Concept introduction:
Ionic compounds in aqueous state are capable of conducting electricity. Strong electrolytes dissociate completely and can conduct electricity faster whereas weak electrolytes do not dissociate completely and conducts less electricity. In order to denote concentration, terms such as equivalent and milli equivalent are used. Molar mass when divide by ionic charge gives equivalent of any ion. For a positive ion. The number of equivalent of the positive ion will be always equal to the number of equivalent of the negative ions.
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Fundamentals Of General, Organic, And Biological Chemistry Volume 1 Second Custom Edition For Washington State University, 2/e
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