2.2 Enthalpy

Question 1

What is enthalpy change?

Answer 1

heat transfer at a constant pressure

Question 2

How can enthalpy be represented?

Answer 2

H = E + PV

where E is internal energy

Question 3

Can enthalpy be measured?

Answer 3

no, ∆H, change in enthalpy can:

∆H = ∆E + P∆V

Question 4

how are enthalpy change (∆H) and heat flow (q) related at constant pressure?

Answer 4

they are equal

∆H = q

Question 5

What is latent heat?

Answer 5

energy change from phase/state change

Question 6

What are endothermic phase changes?

Answer 6

fusion, vaporization, sublimation

Question 7

What are exothermic phase changes?

Answer 7

freezing, condensation, deposition

Question 8

What is fusion?

Answer 8

melting: solid to liquid

Question 9

What is vaporization?

Answer 9

boiling: liquid to gas

Question 10

What is sublimation?

Answer 10

solid to gas

Question 11

What is freezing?

Answer 11

liquid to solid

Question 12

What is condensation?

Answer 12

gas to liquid

Question 13

What is deposition?

Answer 13

gas to solid

Question 14

Does latent heat relate to temperature?

Answer 14

NO! only phase changes, not temperature

Question 15

What does energy added through latent heat do if it doesn’t change temperature?

Answer 15

break intermolecular forces

Question 16

How are q and ∆H related?

Answer 16

directly proportional

they are equal at CONSTANT PRESSURE

Question 17

What is Latent Heat measured in?

Answer 17

kJ/mol

Question 18

What is ∆H dependent on?

Answer 18

temperature and pressure

Question 19

What are the thermodynamic standard conditions?

Answer 19

PRESSURE: 1 atm (101.325 kPa)
TEMP: 25ºC (298,15ºK)

Question 20

What is ∆Hº?

Answer 20

enthalpy under standard conditions

Question 21

How is ∆Hº represented?

Answer 21

∑H(products) - ∑H(reactants)

Question 22

When is ∆Hº an endothermic reaction?

Answer 22

heat consumed/absorbed:
∑H(products) > ∑H(reactants)

∆H > 0

Question 23

When is ∆Hº an exothermic reaction?

Answer 23

heat released:
∑H(reactants) > ∑H(products)

∆H < 0

Question 24

How is ∆Hº(rxn) an extensive property?

Answer 24

the amount of matter in the sample matters

Question 25

What are examples of extensive properties?

Answer 25

enthalpy, energy, volume

Question 26

What are examples of intensive properties?

Answer 26

temperature, pressure

Question 27

Why does ∆Hº(rxn) vary in the same reaction?

Answer 27

dependent on per mole of which substance

Question 28

What is the relationship between ∆Hº in kJ and coefficient of stoichiometric equation?

Answer 28

proportional

Question 29

What is calorimetry?

Answer 29

study of heat flow of physical and chemical processes

Question 30

What is a calorimeter?

Answer 30

apparatus where heat flow reactions take place

Question 31

What is the apparatus of a low cost calorimeter?

Answer 31

Styrofoam cup with Styrofoam lid, thermometer and stirrer

Question 32

What does the system of the calorimeter contain?

Answer 32

heat flow of reactants, solvent, and calorimeter

Question 33

How does heat flow in a calorimeter for an endothermic reaction?

Answer 33

heat from calorimeter, to the solvent to the reactants – reactants absorb/gain heat

Question 34

How does heat flow in a calorimeter for an exothermic reaction?

Answer 34

heat from reactants, to solvent, to calorimeter
– heat lost from reactants and gained by calorimeter and solvent

Question 35

How can water be used to find heat capacity of calorimeter for calorimeter calibration?

Answer 35

1. add known amt of hot water with known temperature to calorimeter
2. measure temperature when calorimeter and water reach thermal equilibrium
   (mass of water, specific heat capacity of water, ∆T are known, so C(cal) can be calculated)

Question 36

How can a chemical reaction be used to find heat capacity of calorimeter for calorimeter calibration?

Answer 36

1. carry out chemical reaction with known heat of reaction (q(rxn)) inside calorimeter, measure temperature, and ensure there is no water or solution in the calorimeter
   (qrxn and temperature change is known so C(cal) can be calculated)

Question 37

When is a bomb calorimeter used?

Answer 37

measure heat liberated from gaseous or combustion reactions

Question 38

What are the conditions of a bomb calorimeter?

Answer 38

takes place under constant volume so the measured heat transfer corresponds to ∆E
- total pressure change is approx. constant because the calorimeter is filled with a large excess of oxygen, so heat transfer recorded is equal to ∆H

Question 39

How is ∆T measured in a bomb calorimeter?

Answer 39

change in temperature of the calorimeter and the water bath

Question 40

What is the bomb calorimeter apparatus?

Answer 40

water bath surrounding heavy vessel with thermometer and stirrer

Question 41

What is Standard Enthalpy of Formation (∆H˚f)?

Answer 41

∆H for the reaction where 1 mole of a substance under standard conditions is formed from the constituent elements in their reference states under standard condition

Question 42

What is the formation reaction?

Answer 42

elements (reference state, standard condition) → 1 mole of a substance (standard condition)

Question 43

What is a reference state?

Answer 43

form of an ELEMENT that is MOST STABLE under standard conditions

Question 44

Do reference states need to be an atom?

Answer 44

NO; they can be molecules too

Question 45

What is a standard state?

Answer 45

state of substance under standard condition

Question 46

What are allotropes?

Answer 46

chemical elements existing in 2+ different forms
Ex. carbons allotropes are graphite, graphene, diamond, etc.

Question 47

How do we predict the enthalpy change of reaction?

Answer 47

define a reference point (0) and measure the difference in enthalpy compared to the reference point

Question 48

what is the standard enthalpy of formation of an element in its reference state under standard conditions?

Answer 48

arbitrarily set to 0

Question 49

What is HESS’S LAW?

Answer 49

enthalpy change (∆H˚) for a reaction is the SUM of the ENTHALPY CHANGES (∆H˚f or ∆H˚) for the individual steps of the reaction

Question 50

What is the standard enthalpy of formation of reactants to elements?

Answer 50

-∆H˚f(reactants)

Question 51

What is the standard enthalpy of formation of elements to products?

Answer 51

∆H˚f(products)

Question 52

How is Hess’s Law represented?

Answer 52

∆H˚(rxn) = ∑∆H˚f(products) - ∑∆H˚f(reactants)

Question 53

Must coefficients be considered for Hess’s Law?

Answer 53

YES! remember enthalpy is an extensive property:
multiply coefficient with ∆H˚f

[c∆H˚f(C) + d∆H˚f(D)] - [a∆H˚f(A) + b∆H˚f(B)]

Question 54

Why is Hess’s Law possible?

Answer 54

because it is a state function (path independent)
Ex. going from solid to vapour = solid to liquid to vapour

Question 55

What is heat of combustion?

Answer 55

ENERGY released when ONE MOLE of a fuel is in its standard state undergoes COMPLETE combustion with oxygen to form product in their standard state

Question 56

What are the typical products of complete combustion? incomplete combustion?

Answer 56

H2O (l) and CO2(g)

incomplete creates undesirable compounds like CO

Question 57

What is heat of combustion measured in?

Answer 57

kJ/mol

Question 58

What is bond enthalpy?

Answer 58

ENERGY required to BREAK 1 MOLE of a specific type of bond (single, double, or triple) between two atoms where the reactants and products are GAS

Question 59

What type of reaction occurs when bonds are formed between atoms in the gas phase?

Answer 59

exothermic (energy is always released)

Question 60

What type of reaction occurs to break bonds?

Answer 60

Endothermic (energy absorbed)
–> energy/heat input is required
–> both enthalpies are always positive

Question 61

What is total bond enthalpy?

Answer 61

enthalpy of atomization

–> energy required to break ALL BONDS in 1 MOLE of a gaseous compound

1 mole of gaseous compound → gaseous atoms

Question 62

How can AVERAGE BOND ENTHALPY be determined?

Answer 62

divide TBE of a molecule which contains only one type of bond by the total number of those bonds

Question 63

What is the relationship between bond strength and bond order?

Answer 63

directly proportional: C≡C is stronger than C=C is stronger than C-C

Question 64

What are the two methods of calculating total bond enthalpy?

Answer 64

1. Hess’s Law (need ∆H˚f for all products and reactants) - more precise
2. sum all average bond enthalpy (need all average bond enthalpies) - approximation

Question 65

How can enthalpy change be estimated with average bond enthalpies only for GASES?

Answer 65

gaseous reactants hypothetically broken up into atoms and gaseous atoms form new bonds in different arrangements :

∆Hrxn = ∑enthalpies of bonds broken - ∑enthalpies of bonds formed