States of Matter

Q 1.

Assertion (A): Gases do not liquefy above their critical temperature, even on applying high pressure.
Reason (R): Above critical temperature, the molecular speed is high and intermolecular attractions cannot hold the molecules together because they escape because of high speed.
(a) Both A and R are true and R is the correct explanation of A.
(b) Both A and R are true but R is not the correct explanation of A.
(c) A is true but R is false.
(d) A is false but R is true.

Q 2.

Explain the physical significance of vander Waals parameters.

Q 3.

The critical temperature (T_c) and critical pressure (P_c) of C0₂ are 30.98 °C and 73 atm respectively. Can C0₂(g) be liquefied at 32 °C and 80 atm pressure?

Q 4.

With regard to the gaseous state of matter which of the following statements are correct?
(a) Complete order of molecules (b) Complete disorder of molecules
(c) Random motion of molecules (d) Fixed position of molecules

Q 5.

Which of the following changes decrease the vapour pressure of water kept in a sealed vessel?
(a) Decreasing the quantity of water
(b) Adding salt to water
(c) Decreasing the volume of the vessel to one-half
(d) Decreasing the temperature of water

Q 6.

Match the graph between the following variables with their names.

Q 7.

Assertion (A): At constant temperature, PV vs V  plot for real gases is not a straight line.
Reason (R): At high pressure all gases have Z> 1 but at intermediate pressure most gases have Z < 1.
(a) Both A and R are true and R is the correct explanation of A.
(b) Both A and R are true but R is not the correct explanation of A.
(c) A is true but R is false.
(d) A is false but R is true.

Q 8.

What is the unit of coefficient of viscosity?

Q 9.

State Dalton's law of partial pressure.

Q 10.

One of the assumptions of kinetic theory of gases is that there is no force of attraction between the molecules of a gas.
State and explain the evidence that shows that the assumption is not applicable for real gases.

Q 11.

The magnitude of surface tension of liquid depends on the attractive forces between the molecules. Arrange the following in increasing order of surface tension:

water, alcohol (C₂H₅OH) and hexane [CH₃(CH₂)₄CH₃)].

Q 12.

Write van der Waals equation for n moles of a gas.

Q 13.

One of the assumptions of kinetic theory of gases states that "there is no force of attraction between the molecules of a gas."How far is this statement correct? Is it possible to liquefy an ideal gas? Explain.

Q 14.

Viscosity of a liquid arises due to strong intermolecular forces existing between the molecules. Stronger the intermolecular forces, greater is the viscosity. Name the intermolecular forces existing in the following liquids and arrange them in the increasing order of their viscosities. Also give reason for the assigned order in one line.Water, Hexane (CH₃CH₂CH₂CH₂CH₂CH₃), Glycerine (CH₂OHCH(OH)CH₂OH)

Q 15.

Assertion (A): Three states of matter are the result of balance between intermolecular forces and thermal energy of the molecules. .
Reason (R): Intermolecular forces tend to keep the molecules together but thermal energy of molecules tends to keep them apart.
(a) Both A and R are true and R is the correct explanation of A.
(b) Both A and R are true but R is not the correct explanation of A.
(c) A is true but R is false.
(d) A is false but R is true.

Q 16.

What will be the pressure of the gas mixture when 0.5 L of H₂ at 0.8 bar and 2.0 L of dioxygen at 0.7 bar are introduced in all vessel at 27 °C?

Q 17.

What is the effect of temperatures on the vapour pressure of a liquid?

Q 18.

A weather balloon has a volume of 175 dm³ when filled with hydrogen gas at a pressure of 1.0 bar. Calculate the volume of the balloon when it rises to a height where the atmospheric pressure is 0.8 bar. Assume that temperature is constant.

Q 19.

What do you understand by laminar flow of a liquid?

Q 20.

How is compressibility factor expressed in terms of molar volume of the real gas and that of the ideal gas?

Q 21.

(a) Why aerated water bottles kept under water during summer?
(b) Which property of liquid is responsible for spherical shape of drop?
(c) Why is moist air lighter than dry air?
(d) Define aqueous tension.
(e) What are units of a and b which are van der Waals constants?

Q 22.

Explain the effect of increasing the temperature of a liquid on intermolecular forces operating between its particles. What will happen to the viscosity of a liquid if its temperature is increased?

Q 23.

Pressure of l g of an ideal gas A at 27 °C is found to be 2 bar. When 2 g of another ideal gas B is introduced in the same flask at same temperature, the pressure becomes 3 bar. Find the relationship between their molecular masses.

Q 24.

Critical temperature for Co₂ and CH₄ are 31.1 °C and -81.9 °C respectively. Which of these has stronger intermolecular forces and why ?

Q 25.

What is Boyle Temperature?

Q 26.

Give an expression for the van der Wools equation. Give the significance of the constants used in the equation. What are their units?

Q 27.

Why does sharpened edge becomes smooth on heating up to melting point?

Q 28.

The pressure of a 1:4 mixture of dihydrogen and dioxygen enclosed in a vessel is one atmosphere. What would be the partial pressure of dioxygen?
(a) 0.8 x 10⁵atm                                                                          
(b) 0.008 Nm^-2
(c) 8 x 10⁴ Nm ^-2                                                                          
(d) 0.25 atm

Q 29.

Value of universal gas constant (R) is same for all gases. What is its physical significance?

Q 30.

A vessel of 120 mL capacity contains a certain amount of gas at 35 °C and 1.2 bar pressure. The gas is transferred to another vessel of volume 180 mL at 35 °C. What would be its pressure?

Q 31.

Name the energy which arises due to motion of atoms or molecules in a body. How is this energy affected when the temperature is increased?

Q 32.

Name two intermolecular forces that exist between HF molecules in liquid state.

Q 33.

Assertion (A): The temperature at which vapour pressure of a liquid is equal to the external pressure is called boiling temperature.
Reason (R): At high altitude atmospheric pressure is high.
(a) Both A and R are true and R is the correct explanation of A.
(b) Both A and R are true but R is not the correct explanation of A.
(c) A is true but R is false.
(d) A is false but R is true.

Q 34.

Assertion (A): At critical temperature liquid passes into gaseous state imperceptibly and continuously.
Reason (R): The density of liqtiid and gaseous phase is equal to critical temperature.
(a) Both A and R are true and R is the correct explanation of A.
(b) Both A and R are true but R is not the correct explanation of A.
(c) A is true but R is false.
(d) A is false but R is true.

Q 35.

What will be the minimum pressure required to compress 500 dm³ of air at 1 bar to 200 dm³ at 30 °C?

Q 36.

How much time would it take to distribute one Avogadro number of wheat grains if 10¹⁰ grains are distributed each second ?

Q 37.

2.9 g of a gas at 95 °C occupied the same volume as 0.184 g of hydrogen at 17 °C at the same pressure. What is the molar mass of the gas ?

Q 38.

Define critical temperature of gas.

Q 39.

Define an ideal gas.

Q 40.

A flask was heated from 27 °C to 227 °C at constant pressure. Calculate the volume of the flask if 0.1 dm³  of air measured at 227 °C was expelled from the flask.

Q 41.

Two different gases ˜A' and ˜9' are filled in separate containers of equal capacity under the same conditions of temperature and pressure. On increasing the pressure slightly, the gas ˜A' liquefies but gas ˜B' does not liquefy even on applying high pressure until it is cooled. Explain this phenomenon.

Q 42.

Pressure exerted by saturated water vapour is called aqueous tension. What correction term will you apply to the total pressure to obtain pressure of dry gas?

Q 43.

Isotherms of carbon dioxide at various temperatures are represented in the following figure. Answer the following questions based on this figure.

(i) In which state will C0₂ exist between the points a and b at temperature T₁
(ii) At what point will Co₂ start liquefying when temperature is T₁?
(iii) At what point will C0₂ be completely liquefied when temperature is T₂?
(iv) Will condensation take place when the temperature is T₃
(v) What portion of the isotherm at T₁ represent liquid and gaseous C0₂ at equilibrium?

Q 44.

Calculate the temperature of 4.0 moles of a gas occupying 5 dm³ at 3.32 bar (R = 0.083 bar  dm³ K^-1 mol^-1)

Q 45.

Pay load is defined as the difference between the mass of the displaced air and the mass of the balloon. Calculate the pay load when a balloon of radius 10 m, mass 100 kg is filled with helium at 1.66 bar at 27 °C (Density of air = 1.2 kg m^-3 and R = 0.083 bar dm³ K^-1 mol^-1).

Q 46.

What is the effect of temperature on (i) surface tension and (ii) Viscosity?

Q 47.

For real gases the relation between P, V and T is given by van der Waals equation:

where ‘a' and ‘b' are van der Waals constants, ‘nb' is approximately equal to the total volume of the molecules of a gas.
‘a' is the measure of magnitude of intermolecular attraction.
(i) Arrange the following gases in the increasing order of ‘b'. Give reason. 0₂, C0₂, H₂, He
(ii) Arrange the following gases in the decreasing order of magnitude of ‘a'. Give reason.CH₄, O₂, H₂

Q 48.

Name two phenomena that can be explained on the basis of surface tension.

Q 49.

Calculate the total number of electrons present in 1.4 g of dinitrogen gas.

Q 50.

A mixture of dihydrogen and dioxygen at one bar pressure contains 20% by weight of dihydrogen. Calculate the partial pressure of dihydrogen.