A solution contains `0.09 HC1, 0.09 M CHC1_(2)COOH`, and `0.1M CH_(3)COOH`. The `pH` of this solution is one. Calculate `K_(a)`for `CHC1_(2)COOH`. (Given `K_(a)CH_(3)COOH = 10^(-5))`

A solution is 0.1 M in CH_(3)COOH and 0.1M in CH_(3)COONa .Whichof the following will change its pH significantly?

0.1M CH_(3)COOH(aq.) Is mixed with 0.1M NaOH(aq.). The pH of solution on mixing will be ( K_(a) of CH_(3)COOH is 1.8xx10^(-5)

1 M solution of CH_(3)COOH is diluted to x times so that pH of solution is doubled. Calculate x Given K_(a)=1.8xx10^(-5)

A buffer solution was made by adding 15.0 g of CH_(3) COOH and 20.5gCH_(3)COONa . The buffer is diluted to 1.0L . Calculate the pH of solution. Given: pK_(a) of CH_(3)COOH = 4.74, log ((13)/(12)) = 0.035

The pH of solution, containing 0.1N HCl and 0.1N CH_(3)COOH(K_(a)=2xx10^(-5)) is

20 ml 0.1M CH_(3),COOH has P^(H) value 3. It is titrated with 0.1M NaOH What is K_(a) of CH_(3)COOH

Carefully observe the given figure and using data provided find the EMF of shown Galvenic cell in volt: Solution A is 0.1M each in NH_(4)OH and NH_(4)CI and solution B is 0.1M each in CH_(3)COOH and CH_(3)COONa^(+) . [Given: K_(a)(CH_(3)COOH) = 10^(-5), K_(b) (NH_(4)OH) = 10^(-5) and (2.303RT)/(F) = 0.06 volt]

Calculate [H^(o+)] and [CHCl_(2)COO^(Theta)] in a solution that is 0.01M HCl and 0.01M CHCl_(2)COOH. K_(a) for CHCl_(2)COOH is 5 xx 10^(-3) .

Calculate the pH of a solution containing 0.1 M CH_(3)COOH and 0.15 M CH_(3)COO^(-) . (K_(a) "of" CH_(3)COOH=1.8xx10^(-5))

pH of a solution of 0.1 M [CH_3COONH_4(aq)] is [given: K_a(CH_3COOH) = K_b(NH_4OH) = 1.8 x 10^-5)]