`H_(3)O^(+) + OH^(-) rarr 2H_(2)O` is

Balance the following in basic medium CrI_(3) + H_(2)O_(2) + OH^(-) rarr CrO_(4)^(2-) + IO_(4)^(-) + H_(2)O

H_(3)O^(+)"with"OH^(-)

The standard reduction potential at 25^(@)C of the reaction 2H_(2)O+2e^(-) rarr H_(2)+2OH^(-) is -0.8277 volt. Calculate the equuilibrium constant for the reaction, 2H_(2)O hArr H_(3)O^(+)+OH^(-) at 25^(@)C

Three reactions involving H_(2)PO_(4)^(-) are given below (i) H_(3)PO_(4) + H_(2)O rarr H_(3)O^(+) + H_(2)PO_(4)^(-) (ii) H_(2)PO_(4)^(-) + H_(2)O rarr HPO_(4)^(2-) + H_(3)O^(+) (iii) H_(2)PO_(4)^(-) + OH^(-) rarr H_(3)PO_(4) + O^(2-) In which of the above does H_(2)PO_(4)^(-) act as an acid

Hydrogen peroxide is a powerful oxidising agent. It is an electron acceptor in acidic and alkaline mediums . H_(2)O_(2) + 2H^(+) + 2e^(-) rarr H_(2)O (in acidic medium ) H_(2)O_(2) + 2e^(-) rarr 2OH^(-) (in alkaline medium) It can also act as reducing agent towards powerful oxidising agents . H_(2)O_(2) rarr 2H^(+) + O_(2) + 2e In alkaline medium , however , its reducing nature is more effective . H_(2)O_(2) + 2OH^(-) rarr 2H_(2)O + O_(2) + 2e^(-) In the reaction , H_(2)O_(2) + O_(3) rarr H_(2)O + 2O_(2) , H_(2)O_(2) acts as :

If equilibrium constant of CH_(3)COOH + H_(2)O rarr CH_(3) COO^(-) + H_(3) O^(+) is 18 xx 10^(-5) then equilibrium constant for CH_(3)COOH + OH^(-) rarr CH_(3) COO^(-) +H_(2)O is

One proposed mechanism for the hydrolysis of an ester is shown below. RCOOR' +H_(3)O^(+) rarr RCOHOR'^(+) +H_(2)O RCOHOR'^(+) +H_(2)O rarr RC(OH)OR'(OH_(2))+RC(OH)OR'(OH_(2))^(+) +H_(2)O rarr RCOOH+R'OH +H_(3)O^(+) Which species is considered an intermediate?