A) Are elastic
B) Cause gas particles to slow down
C) Decrease the energy of the gas
D) Are inelastic
View AnswerA
36. According to Avogadro’s law, at constant temperature and pressure, the volume of a gas is directly proportional to its:
A) Mass
B) Number of moles
C) Pressure
D) Kinetic energy
View AnswerB
37. Boyle’s law is mathematically represented as:
A) P₁V₁ = P₂V₂
B) V₁/T₁ = V₂/T₂
C) P₁T₁ = P₂T₂
D) V ∝ n
View AnswerA
38. According to Charles’s law, if the temperature of a gas is reduced to half, its volume will:
A) Double
B) Remain the same
C) Reduce to half
D) Become zero
View AnswerC
39. The ideal gas equation can be derived by combining which of the following gas laws?
A) Boyle’s law, Charles’s law, and Avogadro’s law
B) Dalton’s law and Graham’s law
C) Charles’s law and Graham’s law
D) Boyle’s law and Dalton’s law
View AnswerA
40. What is the value of absolute zero in Celsius, according to the kinetic molecular theory?
A) 0°C
B) -100°C
C) -273.15°C
D) 273.15°C
View AnswerC
41. The ideal gas law applies best under which conditions?
A) High temperature and low pressure
B) Low temperature and high pressure
C) Low temperature and low pressure
D) High temperature and high pressure
View AnswerA
42. Which of the following gases is considered the most ideal in behavior?
A) Oxygen
B) Nitrogen
C) Helium
D) Water vapor
View AnswerC
43. The unit of the gas constant “R” in the ideal gas equation is:
A) atm L/mol K
B) atm/mol K
C) L/mol K
D) K/mol
View AnswerA
44. According to Boyle’s law, if a gas occupies 10 L at 2 atm pressure, what will be its volume at 4 atm?
A) 20 L
B) 10 L
C) 5 L
D) 2.5 L
View AnswerC
45. If the volume of a gas increases, what happens to the pressure, assuming constant temperature?
A) Increases
B) Decreases
C) Remains constant
D) Doubles
View AnswerB
46. The concept of absolute zero is important because at absolute zero:
A) The volume of a gas becomes infinite
B) All molecular motion stops
C) The pressure of a gas increases
D) The temperature of a gas is doubled
View AnswerB
47. The general gas equation can be used to calculate changes in which variables?
A) Only pressure and temperature
B) Only volume and temperature
C) Pressure, volume, and temperature
D) Pressure and mass
View AnswerC
48. According to the kinetic molecular theory, gas particles move in:
A) Circular paths
B) Straight-line paths
C) Zigzag paths
D) Rotational motion
View AnswerB
49. If the temperature of a gas is increased, its kinetic energy:
A) Decreases
B) Increases
C) Remains the same
D) Doubles
View AnswerB
50. What is the relationship between pressure and temperature at constant volume according to Gay-Lussac’s law?
A) P ∝ V
B) P ∝ 1/T
C) P ∝ T
D) P ∝ n
View AnswerC
51. In the ideal gas equation, what is the unit of volume?
A) Cubic meters
B) Liters
C) Kilograms
D) Joules
View AnswerB
52. A gas at 300 K has a volume of 5 L. What will be its volume if the temperature is increased to 600 K, assuming constant pressure?
A) 2.5 L
B) 10 L
C) 7.5 L
D) 20 L
View AnswerB
53. The concept of partial pressure is based on which law?
A) Boyle’s law
B) Charles’s law
C) Dalton’s law
D) Graham’s law
View AnswerC
54. Which gas law best explains the working of a hot air balloon?
A) Boyle’s law
B) Charles’s law
C) Graham’s law
D) Avogadro’s law
View AnswerB
55. What happens to the speed of gas molecules as the temperature increases?
A) Increases
B) Decreases
C) Remains constant
D) Doubles
View AnswerA
56. At constant temperature, if the pressure of a gas increases, the volume will:
A) Increase
B) Decrease
C) Remain the same
D) Triple
View AnswerB
57. The term “kinetic” in the kinetic molecular theory refers to:
A) Volume
B) Speed
C) Energy
D) Pressure
View AnswerC
58. Which law relates the number of moles of a gas to its volume at constant temperature and pressure?
A) Boyle’s law
B) Avogadro’s law
C) Dalton’s law
D) Gay-Lussac’s law
View AnswerB
59. The pressure exerted by a gas is a result of:
A) The mass of the gas particles
B) The volume of the gas
C) The collisions of gas particles with the walls of the container
D) The attractive forces between gas particles
View AnswerC
60. What is the ideal gas law equation?
A) P = nRT/V
B) PV = nRT
C) P = RT/nV
D) PV = R/T
View AnswerB
61. Which of the following gases would have the highest average kinetic energy at the same temperature?
A) Nitrogen
B) Oxygen
C) Helium
D) Carbon dioxide
View AnswerC
62. Boyle’s law holds true when the temperature of a gas is:
A) Constant
B) Increasing
C) Decreasing
D) Zero
View AnswerA
63. Which law relates pressure and temperature at constant volume?
A) Charles’s law
B) Boyle’s law
C) Gay-Lussac’s law
D) Dalton’s law
View AnswerC
64. What will happen to the volume of a gas if its temperature is decreased to 1/3 of its original value at constant pressure?
A) The volume will triple
B) The volume will become 1/3
C) The volume will remain the same
D) The volume will decrease to 1/2
View AnswerB
65. The ideal gas equation assumes that gas particles:
A) Have no volume
B) Have a fixed volume
C) Attract each other
D) Move in circular paths
View AnswerA
66. According to Graham’s law, the rate of effusion of a gas is inversely proportional to:
A) Its temperature
B) Its molar mass
C) Its volume
D) Its pressure
View AnswerB
67. In the context of gases, absolute zero refers to:
A) The point at which molecular motion stops
B) The highest temperature possible
C) The point where pressure equals volume
D) The boiling point of water
View AnswerA
68. The volume of a gas at 0°C is 10 L. What will its volume be at 100°C, assuming constant pressure?
A) 20 L
B) 15 L
C) 5 L
D) 30 L
View AnswerB
69. If the number of gas molecules in a container is doubled, what will happen to the pressure, assuming constant temperature and volume?
A) It will double
B) It will decrease by half
C) It will remain the same
D) It will quadruple
View AnswerA
70. The volume of a gas is directly proportional to the number of moles at constant temperature and pressure according to:
A) Boyle’s law
B) Charles’s law
C) Avogadro’s law
D) Dalton’s law
View AnswerC
71. According to the kinetic molecular theory, the average speed of gas molecules increases with: