CHEM - Energetics - chemistry energetics calorimetry en...

Home
About Us
Subjects
CHEMISTRY
BIOLOGY
PHYSICS
MATHEMATICS
PSYCHOLOGY
ECONOMICS
BUSINESS
COMPUTER SCIENCE
CHINESE
ENGLISH
SPANISH
IBDP IA / EE
IBDP TOK
ONLINE TUTORIAL
Exam Boards
IBDP
IBMYP
IGCSE & GCSE
HKDSE
GCE A-LEVELS
Courses
IBDP Tuition
GCE A-Level Tuition
IBMYP Tuition
I/GCSE Tuition
HKDSE Tuition
Admission Test Prep
PREDICTED GRADE
SAT / SSAT
UKISET (UK)
BMAT
UKCAT / UCAT
LNAT
TMUA (Cambridge)
Student Results
IBDP STUDENT RESULTS
IGCSE & GCSE MATHEMATICS
A-LEVEL STUDENT RESULTS
IGCSE STUDENT RESULTS
GCSE STUDENT RESULTS (UK)
HKDSE STUDENT RESULTS
OUR STORIES
Question Bank
Resources

CHEM - Energetics

Chemistry, energetics, calorimetry, enthalpy change - IGCSE | IBDP | DSE | GCE | AP Chemistry

· chemistry,energetics,calorimetry,enthalpy

Exothermic vs. Endothermic

Endothermic reaction:
Energy is absorbed from the surroundings during the reaction.
Temperature of surroundings decreases.
Enthalpy change is positive.
Exothermic reaction:
Energy is released to the surroundings during the reaction.
Temperature of surroundings increases.
Enthalpy change (total heat energy change) is negative.

The energy level diagram for endothermic and exothermic reaction looks like this 👇

For both endothermic and exothermic reactions, activation energy is required to start the reaction.
For an endothermic reaction, energy level of products is higher than the energy level of reactants.
For an exothermic reaction, energy level of products is lower than the energy level of reactants.

Bond Energy

During a chemical reaction:
Energy is taken in to break bonds in the reactants.
Energy is released to form bonds in the products.
If....
energy required to break bonds > energy released to form bonds → the reaction is endothermic 
energy required to break bonds < energy released to form bonds → the reaction is exothermic
Bond energy: energy required to break one mole of the bond
It is possible to calculate the enthalpy change of a reaction with bond energy.
Energy in = bond energy for reactant
Energy out = bond energy for product
Change in energy = energy in - energy out
If change in energy >0, the reaction is endothermic.
If change in energy <0, the reaction is exothermic.

Example
Determine whether the following reactions are endothermic or exothermic.
(a) H2 + Cl2 → 2HCl

Energy in = 436 + 243 = 679 kJ/mol
Energy out = 2 x 432 = 864 kJ/mol
Energy change = 679 - 864 = -185 kJ/mol
Since the energy change is negative, the reaction is exothermic.

(b) 2HBr → H2 + Br2

Energy in = 2 x 366 = 732 kJ/mol
Energy out = 436 + 193 = 629 kJ/mol
Energy change = 732 - 629 = 103 kJ/mol
Since the energy change is positive, the reaction is endothermic.

Calorimetry Experiment for Combustion

Experimental setup:
Pour a known mass(volume) of water into the copper can.
Measure the initial temperature of water.
Fill the spirit burner with a known mass of test substance.
Light the wick of the spirit burner.
After some time, turn off the spirit burner.
Measure the temperature of the water.
Measure the mass of the substance in the spirit burner.

Energy released from combustion of alcohol = energy used to heat up the water

Energy used to heat up the water can be calculated by using the equation
Q = mcΔT
Q = energy transferred to water (J)
m = mass of water (kg)
c = specific heat capacity of water
= 4.2 J/g·°C
ΔT = change in temperature of water (°C)

Example
The energy from burning 0.5 g of propane was transferred to 100g of water to raise its temperature by 20°C. 
(a) Calculate the heat energy change (in kJ)
Q = 100 x 4.2 x 20 = 8400 J = 8.4 kJ

(b) Calculate the molar enthalpy change of propane.
Molar mass of propane = 44 g/mol
Moles of propane burnt = 0.5 / 44 = 0.01136 mol
Total enthalpy change = -8.4 kJ (negative since combustion is an exothermic reaction)
Molar enthalpy change = -8.4 / 0.01136 = -739 kJ/mol

Wanna Boost Up Your IGCSE Chemistry?