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JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced PDF Download

Ex.1 Calculate the following for 49 gm of H2SO4

(a) moles (b) Molecules (c) Total H atoms (d) Total O atoms (e) Total electrons

 Sol. Molecular wt of H2SO4 = 98

(a) moles = JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced = JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced

(b) Since 1 mole = 6.023 × 1023 molecules.

JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced = 6.023 × 1023 × molecules = 3.011 × 1023 molecules

(c) 1 molecule of H2SO4 Contains 2 H atom

3.011 × 1023 of H2SO4 contain 2 × 3.011 × 1023 atoms = 6.023 × 1023 atoms

(d) 1 molecules of H2SO4 contains 4 O atoms

3.011 × 1023 molecular of H2SO4 contains = 4 × 3.011 × 1023 = 12.044 × 1023

(e) 1 molecule of H2SO4 contains 2H atoms 1 S atom 4 O atom

this means 1 molecule of H2SO4 Contains (2 16 4 × 8) e_

So 3.011 × 1023 molecules have 3.011 × 1023 × 50 electrons = 1.5055 × 1025 e_

 

Ex.2 Calculate the total ions & charge present in 4.2 gm of N_3

 Sol. mole = JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced = JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced = 0.3

total no of ions = 0.3 × NA ions

total charge = 0.3 NA × 3 × 1.6 × 10_19

= 0.3 × 6.023 × 1023 × 3 × 1.6 × 10_19 , = 8.67 × 104Ans.

 

Ex.3 Find the total number of iron atom present in 224 amu iron.

 Sol. Since 56 amu = 1 atom

therefore 224 amu = JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced × 224 = 4 atom Ans.

 

Ex.4 A compound containing Ca, C, N and S was subjected to quantitative analysis and formula mass determination. A 0.25 g of this compound was mixed with Na2CO3 to convert all Ca into 0.16 g CaCO3. A 0.115 gm sample of compound was carried through a series of reactions until all its S was changed into SO42_ and precipitated as 0.344 g of BaSO4. A 0.712 g sample was processed to liberated all of its N as NH3 and 0.155 g NH3 was obtained. The formula mass was found to be 156. Determine the empirical and molecular formula of the compound.

 Sol. Moles of CaCO3 = JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced = Moles of Ca

Wt of Ca = JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced × 40

Mass % of Ca = JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced

Similarly Mass % of S = JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced

Similarly Mass % of N = = 17.9

Þ Mass % of C = 15.48

Now :

Elements Ca S N C

Mass % 25.6 41 17.9 15.48

Mol ratio 0.64 1.28 1.28 1.29

Simple ratio 1 2 2 2

Empirical formula = CaC2N2S2,

Molecular formula wt = 156 , n × 156 = 156 Þ n = 1

Hence, molecular formula = CaC2N2S2

 

Ex.5 A polystyrne having formula Br3C6H3(C3 H8)n found to contain 10.46% of bromine by weight. Find the value of n. (At. wt. Br = 80)

 Sol. Let the wt of compound is 100 gm & molecular wt is M

Then moles of compound =

Moles of Br = × 3

wt of Br = × 3 × 80 = 10.46

M = 2294.45 = 240 75 44 n , Hence n = 45 Ans.

 

Ex.6 A sample of clay was partially dried and then analysed to 50% silica and 7% water. The original clay contained 12% water. Find the percentage of silica in the original sample.

 Sol. In the partially dried clay the total percentage of silica water = 57%. The rest of 43% must be some impurity. Therefore the ratio of wts. of silica to impurity = . This would be true in the original sample of silica.

The total percentage of silica impurity in the original sample is 88. If x is the percentage of silica, ; x = 47.3% Ans.

 

Ex.7 A mixture of CuSO4.5H2O and MgSO4. 7H2O was heated until all the water was driven-off. if 5.0 g of mixture gave 3 g of anhydrous salts, what was the percentage by mass of CuSO4.5H2O in the original mixture ?

 Sol. Let the mixture contain x g CuSO4.5H2O

Þ = 3 Þ x = 3.56

Þ Mass percentage of CuSO4. 5H2O = = 71.25 % Ans.

 

Ex .8 367.5 gm KClO3 (M = 122.5) when heated, How many litre of oxygen gas is proudced at S.T.P.

 Sol. KClO3 ® KCl O2

Applying POAC on O, moles of O in KClO3 = moles of O in O2

3 × moles of KClO3 = 2 × moles of O2

3 × = 2 × n, n = ×

Volume of O2 gas at S.T.P = moles × 22.4

JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced = 9 × 11.2 = 100.8 lit Ans.

 

Ex.9 0.532 g of the chloroplatinate of a diacid base on ignition left 0.195 g of residue of Pt. Calculate molecular weight of the base (Pt = 195)

 Sol. Suppose the diacid base is B.

B H2PtCl6® BH2PtCl6 ® Pt

diacid acid chloroplatinate

base 0.532 g 0.195 g

Since Pt atoms are conserved, applying POAC for Pt atoms,

moles of Pt atoms in BH2PtCl6 = moles of Pt atoms in the product

1 × moles of BH2PtCl6 = moles of Pt in the product

JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced

mol. wt. of BH2PtCl6 = 532

From the formula BH2PtCl6, we get

mol. wt. of B = mol. wt. of BH2PtCl6 _ mol. wt. of H2PtCl6

= 532 _ 410 = 122. Ans.

 

Ex.10 10 mL of a gaseous organic compound containing. C, H and O only was mixed with 100 mL of oxygen and exploded under conditions which allowed the water formed to condense. The volume of the gas after explosion was 90 mL. On treatment with potash solution, a further contraction of 20 mL in volume was observed. Given that the vapour density of the compound is 23, deduce the molecular formula. All volume measurements were carried out under the same conditions.

Sol. CxHyOz   JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced O2 ® xCO2   JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & AdvancedH2O

10 ml

after explosion volume of gas = 90 ml

90 = volume of CO2 gas volume of unreacted O2

on treatment with KOH solution volume reduces by 20 ml. This means the volume of CO2 = 20 ml

the volume of unreacted O2 = 70 ml

volume of reacted O2 = 30 ml

V.D of compoud = 23

molecular wt 12x y 16z = 46 ...(1)

from equation we can write

JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced, x  JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced _ JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced = 3

4x y _ 2z = 12 ...(2)

& 10x = 20 Þ x = 2

from eq. (1) & (2) ; z = 1 & y = 6; Hence C2H6Ans.

The document JEE Advanced (Subjective Type Questions): Stoichiometry | Chemistry for JEE Main & Advanced is a part of the JEE Course Chemistry for JEE Main & Advanced.
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FAQs on JEE Advanced (Subjective Type Questions): Stoichiometry - Chemistry for JEE Main & Advanced

1. What is stoichiometry in chemistry?
Ans. Stoichiometry is the branch of chemistry that deals with the calculation of the quantities of reactants and products involved in chemical reactions. It is based on the law of conservation of mass, which states that matter cannot be created or destroyed; it can only be transformed from one form to another. Stoichiometry involves balancing chemical equations and using mole ratios to determine the amount of reactants and products in a reaction.
2. What is the importance of stoichiometry in JEE?
Ans. Stoichiometry is an important topic in JEE as it is a fundamental concept that underlies many other topics in chemistry. Questions related to stoichiometry are frequently asked in JEE exams and form an essential part of the chemistry syllabus. A good understanding of stoichiometry is also necessary for solving problems related to chemical equilibrium, thermodynamics, and kinetics.
3. How do you balance chemical equations in stoichiometry?
Ans. Chemical equations are balanced by adjusting the coefficients of reactants and products to ensure that the number of atoms of each element is equal on both sides of the equation. The steps involved in balancing a chemical equation are: 1. Write the unbalanced equation. 2. Count the number of atoms of each element present on both sides of the equation. 3. Adjust the coefficients of the reactants and products to balance the number of atoms of each element. 4. Check that the equation is balanced by counting the number of atoms of each element on both sides.
4. How do you calculate the theoretical yield in stoichiometry?
Ans. The theoretical yield is the maximum amount of product that can be formed from a given amount of reactant. To calculate the theoretical yield in stoichiometry, follow these steps: 1. Write the balanced chemical equation. 2. Calculate the number of moles of the limiting reactant. 3. Use the mole ratio from the balanced chemical equation to determine the number of moles of product that can be formed. 4. Convert the moles of product to grams using the molar mass of the product.
5. What is the relationship between stoichiometry and limiting reactant?
Ans. The limiting reactant is the reactant that is completely consumed in a chemical reaction, limiting the amount of product that can be formed. Stoichiometry is used to determine the amount of product that can be formed from a given amount of reactant. The amount of product that can be formed is limited by the amount of limiting reactant present. Therefore, stoichiometry is closely related to limiting reactants, and the two concepts are often used together to solve problems in chemistry.
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