(a)
Interpretation:
To determine the name of binary ionic compound BeO.
Concept Introduction:
The naming of the ionic compound takes place in the way that the name of metal cation will remain same to that of metal while for anion the name of negative charged species end with suffix ‘ate’ for the case of elements such as P, S etc and name of negative charged species end with suffix ‘ide’ for the case of elements such as halides.
(b)
Interpretation:
To determine the name of binary ionic compound MgI2.
Concept Introduction:
The naming of the ionic compound takes place in the way that the name of metal cation will remain same to that of metal while for anion the name of negative charged species end with suffix ‘ate’ for the case of elements such as P, S etc and name of negative charged species end with suffix ‘ide’ for the case of elements such as halides.
(c)
Interpretation:
To determine the name of binary ionic compound Na2 S.
Concept Introduction:
The naming of the ionic compound takes place in the way that the name of metal cation will remain same to that of metal while for anion the name of negative charged species end with suffix ‘ate’ for the case of elements such as P, S etc and name of negative charged species end with suffix ‘ide’ for the case of elements such as halides.
(d)
Interpretation:
To determine the name of binary ionic compound Al2 O3.
Concept Introduction:
The naming of the ionic compound takes place in the way that the name of metal cation will remain same to that of metal while for anion the name of negative charged species end with suffix ‘ate’ for the case of elements such as P, S etc and name of negative charged species end with suffix ‘ide’ for the case of elements such as halides.
(e)
Interpretation:
To determine the name of binary ionic compoundHCl.
Concept Introduction:
The naming of the ionic compound takes place in the way that the name of metal cation will remain same to that of metal while for anion the name of negative charged species end with suffix ‘ate’ for the case of elements such as P, S etc and name of negative charged species end with suffix ‘ide’ for the case of elements such as halides.
(f)
Interpretation:
To determine the name of binary ionic compoundLiF.
Concept Introduction:
The naming of the ionic compound takes place in the way that the name of metal cation will remain same to that of metal while for anion the name of negative charged species end with suffix ‘ate’ for the case of elements such as P, S etc and name of negative charged species end with suffix ‘ide’ for the case of elements such as halides.
(g)
Interpretation:
To determine the name of binary ionic compound Ag2 S.
Concept Introduction:
The naming of the ionic compound takes place in the way that the name of metal cation will remain same to that of metal while for anion the name of negative charged species end with suffix ‘ate’ for the case of elements such as P, S etc. and name of negative charged species end with suffix ‘ide’ for the case of elements such as halides.
(h)
Interpretation:
To determine the name of binary ionic compound CaH2.
Concept Introduction:
The naming of the ionic compound takes place in the way that the name of metal cation will remain same to that of metal while for anion the name of negative charged species end with suffix ‘ate’ for the case of elements such as P, S etc. and name of negative charged species end with suffix ‘ide’ for the case of elements such as halides.
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