5 Energetics

Question 1

Is bond making exothermic or endothermic?

Answer 1

exothermic

energy is released when bonds are formed

Question 2

Is bond breaking endothermic or exothermic?

Answer 2

endothermic

Energy must be added to break bonds

Question 3

What does the quantity symbol H stand for?

What is its unit?

Answer 3

molar enthalpy

kJ / mol

Question 4

What does the quantity Q stand for in Q = mc(change in T)?

What is its unit?

Answer 4

Q stands for energy

Unit : Joules (J)

Question 5

What is the relationship between energy, mass, specific heat capacity and change in temperature?

Answer 5

Q = mc (Change in T)

Question 6

What does a negative change in enthalpy value mean?

Answer 6

The reaction is exothermic

Question 7

What does a positive change in enthalpy value mean?

Answer 7

The reaction is endothermic

Question 8

During the complete combustion of propanol, 100 cm³ of water is heated and the temperature of the water rose from 23ºC to 43ºC. The specific heat capacity of water is 4.2 J/gºC.

How is the energy released by the propanol be calculated?

Answer 8

1. Find energy released using:

Q =mc(change in T)

Q = 100g x 4.2J/gºC x 20ºC

Question 9

To determine the enthapy of reaction for the combustion of propanol, 100 cm³ of water is heated. The temperature started at 23ºC and rose to 46ºC.

What other measurement/s must be made to calculate the enthalpy of reaction in kJ/mol?

Answer 9

Mass of spirit burner before AND after.

1. Find energy released using:

Q =mc(change in T)

2: Find moles of propanol reacted using:

mole of fuel burnt = mass / RFM of propanol

3. Calculate enthapy change using

Enthalpy = Q / moles

Question 10

To determine the enthapy of reaction for the complete combustion of propanol, 100 cm³ of water is heated. The temperature started at 23ºC and rose to 46ºC.

State three things which must be done to ensure accurate results?

Answer 10

1. Water must be stirred
2. Temperature must be read every minute after the spirt burner is blown out in order to record maximum temperature
3. Thermometer must not be touching the bottom of the beaker

Question 11

Using the energy profile diagram below, determine if the reaction is exothermic or endothermic

Answer 11

exothermic

change in enthalpy is negative

Question 12

Using the energy profile diagram below, determine if the reaction is exothermic or endothermic?

Answer 12

Endothermic

Enthalpy change is positive

Question 13

Below is a diagram showing that more energy is released making bond in this reaction than energy supplied breaking bonds.

Is this reaction exothermic or endothermic?

Answer 13

exothermic

Question 14

Metal Displacement reactions of metals and metal salts are exothermic.

Mg + CuSO₄ –> MgSO₄ + Cu

How would the temperature change of the solution compare between magnesium in copper sulfate and zinc in copper sulfate?

Answer 14

The temperature rise would be greater for magnesium in copper sulfate than zinc in copper sulfate because magnesium and copper are futher apart in the reactivity series.

Question 15

How does the addition of a catalyst alter the energy profile diagram?

Answer 15

A catalyst provides an alternative route with a lower activation energy.

Question 16

Complete combustion of methane

CH₄ + 2O₂ –> CO₂ + 2H₂O

After calcuating the total energy required to break all the bonds in the reactants and the _total energy to make all the bond_s in all the products, how is the enthalpy change calculated?

How do you know if the reaction is exothermic or endothermic?

Answer 16

negative value = exothermic

positive value = endothermic

Question 17

Complete combustion of methane

CH₄ + 2O₂ –> CO₂ + 2H₂O

What is the total bond enthalpy released when the bond in carbon dioxide are made?

Answer 17

2x 730kJ/mol = 1460 kJ/mol

carbon dioxide has two C=O bonds!

Question 18

Complete combustion of methane

CH₄ + 2O₂ –> CO₂ + 2H₂O

What is the total bond enthalpy required to break both oxygen molecules?

Answer 18

2x 502kJ/mol = 1010 kJ/mol

oxygen has O=O bonds!

Question 19

Complete combustion of methane

CH₄ + 2O₂ –> CO₂ + 2H₂O

What is the total bond enthalpy released when both water molecules are made?

Answer 19

4x 464 kJ/mol = 1856 kJ/mol

H-O-H H-O-H

4 x O-H bonds are made!

Question 20

Below is the calculation for the theroetical value for change in enthapy of the complete combustion of methane

CH₄ + 2O₂ –> CO₂ + 2H₂O

How and why is the experimental value different?

Answer 20

The experimental value will be less than -810 kJ/mol.

Reasons:

1. Not all the energy released by the fuel goes to the water- some lost to the surroundings
2. Not all the full undergoes complete combustion - some reacts via incomplete combustion (flame was yellow not blue)

Question 21

Calculate the enthalpy of reaction for hydrogen reacting with chlorine to produce hydrogen chloride

Answer 21

Bonds broken

432 + 239 = 671 kJ/mol

Bonds made

2 x 427 = 854 kJ/mol

Enthalpy of reaction

671 - 854 = - 183 kJ/mol

EXOTHEMRMIC

Question 22

Define an exothermic reaction

Answer 22

heat energy given out - surrounding warm up

Question 23

Define endothermic reactions

Answer 23

heat is taken in - surrounding cool down

Question 24

What are the key marking points when creating an energy profile diagram?

Answer 24

1. y-axis labelled with enthalpy (or energy)
2. labelled reactants and products
3. bump to represent reaction path
4. activation energy arrow from reactants to top of bump
5. enthalpy change labelled from reactants to products - arrow up (endo) arrow down (exo)

Question 25

Complete the steps to find the molar enthapy of a fuel?

1. find the mass of the fuel and container before using a balance
2. pour 100cm³ of water into the can using a measuring cylinder
3. record the initial temperature of the water in the can
4. Light the fuel and place it directly under the can
5. blow out the flame when the temperature rises about 10 degrees.

Answer 25

6. record the maximum temperature of the water
7. find the new mass of the fuel and container
8. Calculate the energy gained by the water

Q = 100g x 4.2J/gºC x(change in temperature)

9. Calculate the moles of fuel burnt

moles = mass of fuel burnt / RFM of fuel

10. Calculate the molar enthalpy by

Energy gained by water (in kJ) / mole of fuel burnt

Question 26

Complete the steps to find the molar enthapy of a metal displacement reaction?

1. measure the mass of the metal using a balance
2. pour 100 cm3 of metal salt (excess) into the styrofoam cup using a measuring cylinder
3. record the initial temperature of the salt solution in the sytrofoam cup
4. pour the metal into the cup & stir

Answer 26

6. record the maximum temperature of the water
7. Calculate the energy gained by the water

Q = 100g x 4.2J/gºC x(change in temperature)

9. Calculate the moles of mass added

moles = mass of metal / RFM of metal

10. Calculate the molar enthalpy by

Energy gained by solution (in kJ) / mole of metal