Homework Soursed 01 M Na2CO3 3 Using the internet list at least 5 Ir that m
d. 0.1 M Na2CO3 3. Using the internet, list at least 5 Ir that may be used as pH i
Solution
To predict the pH of 0.1M Na2CO3,:
The base hydrolysis in solution takes place as follows:
Na2CO3 +H2O <--->2Na+ +HCO3- +OH-
CO32- +H2O <--->HCO3- +OH-
,kb1=kw/ka2=10^-14/(4.69*10^-11)=0.000213=2.13*10^-4
HCO3- +H2O <---> H2CO3 +OH-
kb2=kw/ka1=10^-14/(4.45*10^-7)=2.25*10^-8
kb1=[HCO3-][OH-]/[CO32- ]
2.13*10^-4=x^2/(0.1-x) [for very low dissociation ,0.1>>x]
2.13*10^-4=x^2/(0.1)
or, x=0.461*10^-2=[OH-]=[HCO3-]
Now,kb2=2.25*10^-8=[H2CO3][OH-]/[HCO3-]
ICE table
2.25*10^-8=[H2CO3][OH-]/[HCO3-]=y*(0.461*10^-2+y)/(0.461*10^-2-y)
or,0.461*10^-2<<<y for very low kb2 or dissociation
2.25*10^-8=y*(0.461*10^-2)/(0.461*10^-2)=y
y=2.25*10^-8=kb2=[OH-]
[H3O+]=kw/[OH-]=(10^-14)/(2.25*10^-8)=4.44*10^-7M
pH=-log[H3O+]=-log (4.44*10^-7M)=6.3
pH=6.3
| [CO32- ] | [HCO3-] | [OH-] | |
| initial | 0.1M | 0 | 0 |
| change | -x | +x | +x |
| equibrium | 0.1-x | x | x |
