Consider the following solutions of equal concentrations
`{:(A= NH_(4)Cl,,B = CH_(3)COONa),(C = NH_(4)OH,,D = CH_(3)COOH):}`
A buffer solution can be obtained by mixing equal volumes of

How much of the following are strong electorlytes? a. NH_(3) b. NH_(4)CI c. CH_(3)COOH d. CH_(3)COONa e. HCI f. NaCI

For the buffer solution containing NH_(4)OH and NH_(4)Cl, P^(H) of the buffer solution can be increased by

Consider the following salts: Na_(2)CO_(3),NaCl,NH_(4)Cl,CH_(3)COONa,K_(2)SO_(4),(NH_(4))_(2)SO_(4) Which of these salts will give. (a) Acidic solutions? (b) neutral solutions? (c) Basic solutions (or alkaline solutions)?

The pH of a buffer solution of 0.1 M CH_(3)COOH and 0.1 MCH_(3)COONa is (pK_(a)CH_(3)COOH =4.745)

A solutions is 10 M in CH_(3)COONa and 1 M in CH_(3)COOH . If pK_(a) of CH_(3)COOH is 4.8 , what is the pH of the solution?

A solution is 10 M in CH_(3)COONa and 1 M in CH_(3)COOH . If pK_(a) of CH_(3)COOH is 4.8 , what is the pH of the solution?

Predict in which case, the degree of hydrolysis is independent of the concentration of the salt. KCl, CH_3COONa , NH_4Cl , CH_3COONH_4

A solution is 1M in CH_(3)COONa . and 0.1M in CH_(3)COOH . if pK_(a) of CH_(3)COOH is 4.8 , what is the pH of the solution?

Concentration of NH_(4)Cl and NH_(4)OH in a buffer solution are in the ratio of 1 : 10 , Kb for NH_(4)OH is 10^(-10) . The pH of the buffer is