Jagadeesh: How can we predict the nature of a salt, sodium acetate `(CH_3COONa)`?
Leela: Explained the doubt of Jagadeesh by asking some questions. Here their conversation is given in incomplete sentence.
Frame the questions and fill in it.
4) Leela : ............................................................?
Jagadeesh : Here, the acid `CH_3COONa+H_2O`

Jagadeesh: How can we predict the nature of a salt, sodium acetate (CH_3COONa) ? Leela: Explained the doubt of Jagadeesh by asking some questions. Here their conversation is given in incomplete sentence. Frame the questions and fill in it. Leela : ............................................................? Jagadeesh : It is a weak acid.

Jagadeesh: How can we predict the nature of a salt, sodium acetate (CH_3COONa) ? Leela: Explained the doubt of Jagadeesh by asking some questions. Here their conversation is given in incomplete sentence. Frame the questions and fill in it. 3) Leela : .................................................................? Jagadeesh : CH_3COOH+NaOH to CH_3COONa+H_2O

Jagadeesh: How can we predict the nature of a salt, sodium acetate (CH_3COONa) ? Leela: Explained the doubt of Jagadeesh by asking some questions. Here their conversation is given in incomplete sentence. Frame the questions and fill in it. Leela : ...............................................................? Jagadeesh : Here, the base, NaOH is used.

Jagadeesh: How can we predict the nature of a salt, sodium acetate (CH_3COONa) ? Leela: Explained the doubt of Jagadeesh by asking some questions. Here their conversation is given in incomplete sentence. Frame the questions and fill in it. Leela : .................................................................? Jagadeesh : NaOH is strong base.

Jagadeesh: How can we predict the nature of a salt, sodium acetate (CH_3COONa) ? Leela: Explained the doubt of Jagadeesh by asking some questions. Here their conversation is given in incomplete sentence. Frame the questions and fill in it. Leela : ...................................................................? Jagadesh : CH_3COONa (Sodium acetate) is basic in nature.

Jagadeesh: How can we predict the nature of a salt, sodium acetate (CH_3COONa) ? Leela: Explained the doubt of Jagadeesh by asking some questions. Here their conversation is given in incomplete sentence. Frame the questions and fill in it. Leela : ................................................................? Jagadeesh : The salt which is formed by weak acid and strong base is basic in nature.

Jagadeesh: How can we predict the nature of a salt, sodium acetate (CH_3COONa) ? Leela: Explained the doubt of Jagadeesh by asking some questions. Here their conversation is given in incomplete sentence. Frame the questions and fill in it. 2) Leela :......................................................................? Jagadeesh: By neutralization reaction. We can prepare a salt.

Jagadeesh: How can we predict the nature of a salt, sodium acetate (CH_3COONa) ? Leela: Explained the doubt of Jagadeesh by asking some questions. Here their conversation is given in incomplete sentence. Frame the questions and fill in it. 1) Leela :......................................................................................................? Jagadeesh : Acid+Base to Salt+Water.

When a salt reacts with water to form acidic (or ) basic solution the process is called salt hydrolysis. The P^(H) of salt solution can be calculated using the following relation P^(H) =(1)/(2) [P^(k_w) +P^(Ka) + log C ] for salt of weak acid and strong base. P^(H) =(1)/(2) [P^(K_w) -P^(K_a) -log C ] for salt of weak base and strong acid , P^(H) =(1)/(2) [P^(K_w) +P^(K_a) - P^(K_b) ] For a salt of weak acid and weak base where .c. represents the concentration of salt . When a weak acid (or) a weak base is not completly neatralised by strong base (or ) strong acid respectively, then formation of buffer takes places. The P^(H) of buffer solution can be calculated using the following relation P^(H) =P^(Ka) +log "" ((["salt")])/(["Acid "]) , P^(OH) =P^(Kb) +log ""(["salt"])/(["base"]) Answer the following questions using the following data pK_a (CH_3COOH) =4.7447 , pK_b (NH_4OH) =4.7447 , P^(K_W) =14. One mole CH_3 COOH and one mole CH_3 COONa are dissolved in water one litre aqueous solution The P^(H) of the resulting solution will be

Hydrolysis of methyl acetate in aqueous solution has been studied by titrating the liberated acetic acid against sodium hydroxide. The concentration of the ester at different times is given below. Show that it follows a pseudo first order reaction, as the concentration of water remains nearly constant (55 mol L^(-1)), during the course of the reaction. What is the value of k in this equation? Rate =k'[CH_(3) COOCH_(3) ][H_(2)O]