Let the solubilities of `AgBr` in water and in `0.01M CaBr_(2), 0.01M KBr`, and `0.05M AgNO_(3)`be `S_(1), S_(2),S_(3)` and `S_(4)`, respectively. Give the decreasing order of the solubilities.

Let the solubilities of AgCI in H_(2)O , and in 0.01M CaCI_(2), 0.01M NaCI , and 0.05M AgNO_(3) be S_(1),S_(2),S_(3),S_(4) , respectively. What is the correct relationship between these quantites.

Let the solubilities of AgCI in H_(2)O , and in 0.01M CaCI_(2), 0.01M NaCI , and 0.05M AgNO_(3) be S_(1),S_(2),S_(3),S_(4) , respectively. What is the correct relationship between these quantites.

The solubility of silver benozate (PhCOOAg) in H_(2)O and in a buffer solution of pH = 4,5 and 6 are S_(1),S_(2),S_(3) , and S_(4) , respectively. Given the decreasing order of their solubilities.

The solubility of silver benzoate (C_(6)H_(5)COOAg) in H_(2)O and in a buffer solution of pH = 2, 3 , and 4 are S_(1), S_(2), S_(3) and S_(4) respectively. The decreasing order of solubility is

If solubility of AgCl(s) in water is 10^-5 M then the solubility of AgCl in 0.1 M AgNO_3 will be

Arrange in increasing order of solubility of AgBr in the given solutions : (i) 0.1 M NH_(3) (iI) 0.1M AgNO_(3) (iii) 0.2M NaBr (iv) pure water

Let each of the circles, S_(1)=x^(2)+y^(2)+4y-1=0 , S_(2)=x^(2)+y^(2)+6x+y+8=0 , S_(3)=x^(2)+y^(2)-4x-4y-37=0 touches the other two. Let P_(1), P_(2), P_(3) be the points of contact of S_(1) and S_(2), S_(2) and S_(3), S_(3) and S_(1) respectively and C_(1), C_(2), C_(3) be the centres of S_(1), S_(2), S_(3) respectively. Q. The co-ordinates of P_(1) are :

The correct order of increasing solubility of AgCI in (A) water (B) 0.1 M NaCI (C ) 0.1 M BaCI_2 (D) 0.1 M NH_3 is

The solubility product of CaSO_(4) is 2.4xx10^(-5) . When 100 mL of 0.01M CaCl_(2) and 100 mL of 0.002M Na_(2)SO_(4) are mixed, then :

Calculate the solubility of CoS in 0.1M H_(2)S and 0.15M H_(3)O^(oplus) (K_(sp) of CoS = 3 xx 10^(-26)) . (K_(1) xx K_(2) (H_(2)S) = 10^(-21))