When `9.0ml` of arsenius sulphide sol and `1.0ml` of `1.0xx10^(-4)M BaCl_(2)` are mixed turbidity due to precipitation just appears after 2 hours. The effective ion and its coagulating value are respectively.

For the coagulation of 100 ml of arsenous sulphide sol 4 ml of 1 M NaCl is required . What would be the flocculation value of NaCl?

For the coagulation of 500mL of arsenious sulphide sol, 2mL of 1MNaCl is required. What is the flocculation value of NaCl ?

For the coagulation of 500mL of arsenious sulphide sol, 2mL of 1MNaCl is required. What is the flocculation value of NaCl ?

In an experiment, addition of 4.0mL of 0.005MBaCl_(2) to 16.0mL of arsenious sulphide sol just cause the complete coagulation in 2h . The flocculating value of the effective ion is:

In an experiment, addition of 4.0mL of 0.005MBaCl_(2) to 16.0mL of arsenious sulphide sol just cause the complete coagulation in 2h . The flocculating value of the effective ion is:

In an experiment, addition of 5.0mL , of 0.006MBaCl_(2) to 10.0mL of arsenic sulphite sol just causes the complete coagulation in 34h . The flocculating value of the effective ion is:

When 6xx10^(-5)g of a protective colloid was added to 20mL of a standard gold sol, the precipitation of latter was just prevented on addition of 2mL of 10%NaCl solution. The gold number of a protective colloid is

When 6xx10^(-5)g of a protective colloid was added to 20mL of a standard gold sol, the precipitation of latter was just prevented on addition of 2mL of 10%NaCl solution. The gold number of a protective colloid is

10 mL of 1 M BaCl_(2) solution & 5 mL 0.5 M K_(2)SO_(4) are mixed together to precipitate out BaSO_(4) . The amount of BaSO_(4) precipated will be

100 ml of 0.1 M HCl and 100 ml of 0.1 M HOCN are mixed then (K_a= 1.2 xx 10^(-6))