Solids, Liquids, and Gases

Question 1

Has a fixed shape that does not conform to the shape of its container

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 1

Solids

Question 2

Even in the solid-state, molecules and ions do not stop moving completely rather they vibrate around fixed points. True or False

Answer 2

True

Question 3

the temperature at which a substance changes from the solid-state to the liquid state.

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 3

Melting point

Question 4

also called solidification, the formation of a solid from a liquid.

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 4

Crystallization

Question 5

Not defined by rigidity or
hardness

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 5

Solids

Question 6

elements that exist in different forms while in the same physical state with different chemical and physical properties.

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 6

Allotropes

Question 7

Atoms, ions, or molecules have an ordered arrangement extending over a long-range. True or False

Answer 7

True

Question 8

Consist of randomly arranged particles that have no ordered long-range structure

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 8

Amorphous solids

Question 9

___________ is similar to the structures of liquids, but the molecules, atoms, and/or ions lack the freedom of motion they have in liquids

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 9

Amorphous solids

Question 10

Have a definite volume, varying shape that conforms to the container’s shape, but only to the extent of its volume

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 10

Liquids

Question 11

Of the three states, only gases can combine the ability to flow with the effects of strong intermolecular forces. True or False

Answer 11

False - liquids

Question 12

Directly related to the strength of the intermolecular attraction between its molecules

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 12

Surface tension

Question 13

The partial pressure of a gas in equilibrium with its liquid form in a closed container

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 13

Vapor pressure

Question 14

As the temperature of the liquid increases, its vapor pressure continues to increase until it equals the atmospheric pressure. True or False

Answer 14

True

Question 15

The vapor pressure of water in the atmosphere is expressed as ___________ which is the ratio of the actual partial pressure of the water vapor

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 15

relative humidity

Question 16

At _____________ the vaporization equals the rate of liquefaction.

CHOICES:
Melting point, Solids, Amorphous solids, Surface tension, Equilibrium, relative humidity, Vapor pressure, Liquids, Allotropes, Crystallization

Answer 16

Equilibrium

Question 17

The temperature at which the vapor pressure of a liquid is equal to the atmospheric pressure

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 17

Boiling point

Question 18

The boiling point when the atmospheric pressure is 3 atm is the normal boiling point. True or False

Answer 18

False - 1 atm

Question 19

The tendency of a liquid to rise in narrow tubes or be drawn into small openings such as those between grains of a rock.

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 19

Capillary Action

Question 20

Occurs due to the pressure of ___________ which causes the liquid to work against gravity.

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 20

cohesion adhesion

Question 21

The resistance of a fluid to flow and results from intermolecular attractions that impede the movement of molecules around and past each other.

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 21

Viscosity

Question 22

The particles have large distances between them and
they move randomly throughout the container

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 22

Gases

Question 23

Gases have much lower densities than liquids and solids. True or False

Answer 23

True

Question 24

The force per unit area exerted against a surface

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 24

Pressure

Question 25

the instrument used to measure the pressure of the atmosphere

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 25

Barometer

Question 26

the instrument used to measure the pressure of a gas in a container

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 26

Manometer

Question 27

states that for a fixed mass of gas at a constant temperature, the volume of the gas is inversely proportional to the pressure.

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 27

Boyle’s Law

Question 28

states that at constant pressure, the volume of a fixed
mass of gas is directly proportional to the temperature in Kelvin.

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 28

Charles’s Law

Question 29

states that for a fixed mass of gas at constant volume, the pressure is directly proportional to the temperature in Kelvin.

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 29

Gay-Lussac’s Law

Question 30

states that equal volumes of gases at the same temperature and pressure contain the same number of molecules.

CHOICES:
Viscosity, Gases, Barometer, Manometer, Avogadro’s Law, Gay-Lussac’s Law, Charles’s Law, Boyle’s Law, Pressure, cohesion adhesion, Capillary Action, Boiling point

Answer 30

Avogadro’s Law

Question 31

Standard Atmospheric Pressure (1 atm) is equal to the pressure that supports a column of mercury exactly 760 mm (or 76 cm) high at 0°C at sea level. True or False

Answer 31

True

Question 32

holds for all ideal gases at any temperature, pressure, and volume.

CHOICES:
Partial pressure, phase change, Ideal gas, Kinetic Molecular Theory, Dalton’s Law, Ideal Gas Law

Answer 32

Ideal Gas Law

Question 33

Under most experimental conditions, real gases behave sufficiently like ideal gases. True or False

Answer 33

True

Question 34

States that the total pressure of a mixture of gases is the sum of the partial pressures of each individual gas.

CHOICES:
Partial pressure, phase change, Ideal gas, Kinetic Molecular Theory, Dalton’s Law, Ideal Gas Law

Answer 34

Dalton’s Law

Question 35

the pressure that a gas in a mixture of gases would exert if alone in the container

CHOICES:
Partial pressure, phase change, Ideal gas, Kinetic Molecular Theory, Dalton’s Law, Ideal Gas Law

Answer 35

Partial pressure

Question 36

Molecules in the gaseous state move rapidly and randomly, allowing gas to fill all the available space of its container.

CHOICES:
Partial pressure, phase change, Ideal gas, Kinetic Molecular Theory, Dalton’s Law, Ideal Gas Law

Answer 36

Kinetic Molecular Theory

Question 37

Gas molecules have no volume

and there are no forces of attraction between them. True or False

Answer 37

True

Question 38

a gas described by the assumptions of the kinetic molecular theory

CHOICES:
Partial pressure, phase change, Ideal gas, Kinetic Molecular Theory, Dalton’s Law, Ideal Gas Law

Answer 38

Ideal gas

Question 39

involves a change of matter from one physical state to another.

CHOICES:
Partial pressure, phase change, Ideal gas, Kinetic Molecular Theory, Dalton’s Law, Ideal Gas Law

Answer 39

phase change

Question 40

Solid → Gas

CHOICES:
Melting, Sublimation, Deposition, Vaporization, Condensation, Freezing

Answer 40

Sublimation

Question 41

Solid → Liquid

CHOICES:
Melting, Sublimation, Deposition, Vaporization, Condensation, Freezing

Answer 41

Melting

Question 42

Liquid → Solid

CHOICES:
Melting, Sublimation, Deposition, Vaporization, Condensation, Freezing

Answer 42

Freezing

Question 43

Liquid → Gas

CHOICES:
Melting, Sublimation, Deposition, Vaporization, Condensation, Freezing

Answer 43

Vaporization

Question 44

Gas → Liquid

CHOICES:
Melting, Sublimation, Deposition, Vaporization, Condensation, Freezing

Answer 44

Condensation

Question 45

Gas → Solid

CHOICES:
Melting, Sublimation, Deposition, Vaporization, Condensation, Freezing

Answer 45

Deposition

Question 46

the heat necessary to convert 1.0 g of any solid to a liquid.

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 46

Heat of fusion

Question 47

the heat necessary to convert 1.0 g of any liquid to the gaseous state.

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 47

Heat of vaporization

Question 48

Combines the liquid-gas, solid-liquid, and solid-gas curves and gives the conditions of temperature and pressure at which each phase is stable and where phase changes occur

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 48

Phase Diagram

Question 49

Phase Diagram contains a unique ______ where all three phases coexist

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 49

triple point

Question 50

Beyond the critical temperature, a ___________ exists rather than separate liquid and gaseous phases.

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 50

supercritical fluid

Question 51

Responsible for the condensation of gases into the liquid state and for the solidification of liquids to the
solid state.

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 51

Intermolecular forces of attraction

Question 52

Attractive forces between polar molecules. It occurs due to electronegativity differences

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 52

Dipole-Dipole forces

Question 53

Attractive forces between an ion and polar molecule.

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 53

Ion-Dipole forces

Question 54

Attractive forces arise as a result of temporary dipoles induced in atoms or molecules. It occurs on nonpolar molecules.

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 54

Dispersion forces

Question 55

ease with which the electron distribution in the atom or molecule can be distorted.

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 55

Polarizability

Question 56

Special dipole-dipole interaction between a hydrogen atom in a polar N-H, O-H, or F- H bond and an electronegative O, N, or F atom.

CHOICES:
triple point, supercritical fluid, Dipole-Dipole forces, Polarizability, Hydrogen bonding, Dispersion forces, Ion-Dipole forces, Intermolecular forces of attraction, Phase Diagram, Heat of vaporization, Heat of fusion

Answer 56

Hydrogen bonding

Question 57

Any point along a line shows the pressure and temperature at which the phases are in equilibrium. True or False

Answer 57

True

Question 58

At the critical point, the two densities become equal and the phase boundary disappears. True or False

Answer 58

True

Question 59

Strong IMF = lower boiling point and melting point. True or False

Answer 59

False - higher