In a flask, the weight ratio of CH4 (g) and SO2 (g) at 298K and 1 bar is 1 : 2. The ratio of the number of molecules of SO2 (g) and CH4 (g) is
1 : 4
4 : 1
1 : 2
2 : 1
You are supplied with 500 mL each of 2N HCl and SN HCL What is the maximum volume of 3M HCl that you can prepare using only these two solutions?
250 mL
500 mL
750 mL
1000 mL
What will be the normality of the salt solution obtained by neutralising x mL y (N) HCl with y mL x(N) NaOH, and finally adding (x + y) mL distilled water
At a particular temperature, the ratio of equivalent conductance to specific conductance of a 0.01 N NaCl solution is
105 cm3
103 cm3
10 cm3
105 cm2
The system that contains the maximum number of atoms is
4.25 g of NH3
8 g of O2
2g of H2
4g of He
The volume of ethyl alcohol ( density 1.15 g/cc) that has to be added to prepare 100 cc of 0.5 M ethyl alcohol solution in water is
1.15 cc
2 cc
2.15 cc
2.30 cc
Which one of the following is wrong about molecularity of a reaction?
It may be whole number or fractional
It is calculated from reaction mechanism
It is the number of molecules of the reactants taking part in a single step chemical reaction
It is always equal to the order of elementary reaction
The amount of the heat released when 20 mL 0.5 M NaOH is mixed with 100 mL 0.1 M HCl is × kJ. The heat of neutralisation is
-100 x kJ/mol
-50 x kJ/mol
+ 100 x kJ/mol
+50 x kJ/mol
A.
-100 x kJ/mol
Millimoles or milliequivalents of NaOH = 20 × 0.5 = 10
Millimoles of HCl = 100 × 0.1 = 10
Therefore,
NaOH + HCl → NaCl + H2O
Thus, heat released when 10 milliequivalents of HCl are neutralised by 10 millimoles of NaOH = x kJ.
Heat of neutralisation is the heat released when 1 equivalent of HCl is neutralised by 1 equivalent of NaOH.
2 g of metal carbonate is neutralised completely by 100 mL of 0.1 N HCl. The equivalent weight of metal carbonate is
50
100
150
200