An acid-type indicator "Hin" differs in colour from its conjugate base `("Ind"^(Theta))`. The human eye is sensitive to colour difference only when the ration `["Ind"^(Theta)]//["Hin"]` is greate than `10` or smaller than `0.1`. What should be the minimum change in the `pH`of the solution to observe a complete colour change `(K_(a) = 1.0 xx 10^(-5))`

An acid type indicator, H In differs in colour from its conjugate base (In^(-)) . The human eye is sensitive to colour differences only when the ratio [In^(-)]//[H In] is greater than 10 or smaller than 0.1 . What should to observe a complete colour change ? (K_(a)= 1.0xx10^(-5))

Calculate pH at which an acid indicator Hin with concentration 0.1M changes its colour ( K_(a) for "Hin" = 1 xx 10^(-5) )

A hole is drilled in a copper sheet. The diameter of the hole is 4.24 cm at 27.0^(@)C . What is the change in the diameter of the hole when the sheet is heated to 227^(0)C ? alpha for copper = 1.70 xx 10^(-5)K^(-1)

A hole is drilled in a copper sheet. The diameter of the hole is 4.24 cm at 27.0^(@)C . What is the change in the diameter of the hole when the sheet is heated to 227^(0)C ? alpha for copper = 1.70 xx 10^(-5)K^(-1)

At what pH will a 1.0 xx 10^(-3)M solution of an indicator with K_(b) = 1.0 xx 10^(-10) changes colour?

A base type indicator B differs in colour from its conjugate acid. (BH^(+)) .Acidic form is red in colour while basic form is blue in colour. Human eye can sense blue colour distincity when ratio of blue form concentration to red form cocnentration is (a)/(b) . or more.However ,red colour can be sensed by human eye distinctly when ratio of red form concentration of blue form concentration is (c)/(d) or more. Determine the pH range of solution in which human eyes will be unable to observe distinct red or distinctly blue colour.Take ionisation of B as K_(eq) .

Which of the following solutions when added to 1L of a 0.1 M CH_3COOH will cause no change in the pH of the solution K_a=1.8xx10^(-5) for CH_3COOH ?

Two buffer, (X) and (Y) of pH 4.0 and 6.0 respectively are prepared from acid HA and the salt NaA. Both the buffers are 0.50 M in HA. What would be the pH of the solution obtained by mixing equal volumes of the two buffers ? (K_(HA)=1.0xx10^(-5))

Calculate the pH at the equivalence point when a solution of 0.1 M acetic acid is titrated with a solution of 0.1 M NaOH. K_(a) for acid =1.9xx10^(-5) .

50 ml of 0.05 M sodium hydroxide is mixed with 50 ml 0.1 of M acetic acid solution. What will be the pH resulting solution if K_(a) (CH_(3)COOH) = 2 xx 10^(-5)