An excellent solution for cleaning grease stains from cloth of leather consists of the folllowing components: `C Cl_(4)` (80% by volume), ligroin (16%) and amyl alcohol (4%) How many `mL` of each should to taken to make up `80 mL` of solution?

What volume of 95% H_(2) SO_(4) by weight (d = 1.85 g mL^(-1)) and what mass of water must be taken to prepare 100 mL of 15% solution of H_(2) SO_(4) (d = 1.10 g mL^(-1))

A mmonia is highly soluble gas in water and gives a alkaline solution of NH_(4) OH . What volume of NH_(3) gas at STP will be required to the passed in 100 mL of 0.5 M H_(2) SO_(4) to bring down its strength to 0.25 M ? (For titrations with aqueous NH_(3) , it is assumed that NH_(4) OH dissociates to 100% extent) a. 2.24 L b. 1.68 L c. 1.12 L d. 0.56 L

Fill in the blanks. a. The equivalent weight of NaHCO_(3) is ……..and of SO_(2) is ……… b. 2 mol of 50% pure Ca(HCO_(3))_(2) on heating forms 1 mol of CO_(2) . The % yield of CO_(2) is …….. c. 5 g of K_(2) SO_(4) was dissolved in 250 mL of solution. The volume of this solution that should be used so that 1.2 g of BaSO_(4) be precipitated fromk BaCl_(2) is ....... (molecular mass of K_(2) SO_(4) = 174 and BaSO_(4) = 233 ) d. The residue obtained on strongly heating 2.76 g Ag_(2) CO_(3) is ........ [Ag_(2)CO_(3) overset(Delta)rarr Ag + CO_(2) + O_(2)] Atomic mass of Ag = 108

The Van't Hoff factor of Hg_(2)Cl_(2) in its aqueous solution will be ( Hg_(2)Cl_(2) is 80% ionized in the solution) a. 1.6 , b. 2.6 ,c. 3.6 ,d. 4.6

Calculate osmotic pressure of a solution obtained by mixing 100 mL of 3.4% solution "(weight/volume)" of urea "(molecular weight 60)" and 100 mL of 1.6% solution "(weight/volume)" of cane sugar "(molecular weight 342)" at 20^(@)C .

How many grams of concentrated nitric acid solution should be used to prepare 250 mL of 2.0 M HNO_(3) ? The concentrated acid is 70% HNO_(3) .

An alloy of Pb-Ag weighing 1.08 g was dissolved in dilute HNO_(3) and the volume made to 100 mL. A silver electrode was dipped in the solution and the e.m.f. of the cell set up Pt(s), H_(2)(g)"|"H^(+)(1M)"||"Ag^(+)(aq)"|"Ag(s) was 0.62 V. If E_("cell")^(@)=0.80V , what is the percentage of Ag in the alloy ? (At 25^(@)C, 2.303RT//F=0.06 )