Physical & Chemical Processes (College Board AP® Chemistry)
Study Guide
Written by: Martín
Reviewed by: Stewart Hird
Macroscopic Characteristics & Bond Interactions
Physical Processes and Intermolecular Interactions
During physical processes, the chemical composition of a substance does not change
However, there is a change in the appearance of the substance
This change in appearance involves changes in the intermolecular forces between the molecules or ions that are part of the compound
E.g. When water turns into steam, hydrogen bonding which is an intermolecular interaction between water molecules, needs to be broken down before changing state
The polar covalent bonds between oxygen and hydrogen atoms remain the same because the internal composition of water does not change when going from liquid to gas
All the changes of state involve the breaking of intermolecular interactions such as: hydrogen bonding, dipole-dipole, and London dispersion forces
Hydrogen bonding interaction and polar covalent bonds in water
Intermolecular interactions are broken when going from liquid to gas. Intramolecular interactions remain the same
Chemical Processes and Bond Breaking/Formation
During chemical processes, the chemical composition of substances changes
Reactants transform into products whose internal structure is totally different because the bonds between atoms rearrange
Chemical processes are a game that involves breaking and forming chemical bonds
Bond breaking is a process that requires energy
Bond formation is a process that releases energy
All the chemical reactions are chemical processes because the chemical identity of the products is different than the identity of the reactants
E.g. When hydrogen gas is burned in the presence of oxygen gas, water is produced
In the reactants, there are two H–H bonds and one O=O bond. While in the products there are four O–H bonds
There is a rearrangement of the covalent bonds by comparing the left side with the right side
Burning hydrogen gas with oxygen gas to produce water
Chemical reaction between hydrogen and oxygen to produce water by showing the covalent bonds that were broken and formed during the process
Bond Breaking in Physical Processes
A physical process does not change the chemical identity of the substance
E.g. The formation of a mixture
A chemical process involves the breaking and formation of new chemical bonds, and new substances
E.g. The reaction between hydrogen and oxygen to produce water
There are processes that can partially fit as physical or chemical depending on the argument used
The salt + water solution dilemma
Salt (NaCl) is an ionic compound that exists as an ordered lattice structure of Na+ and Cl-
Water (H2O) is a polar solvent whose molecules show a negative dipole in the O atom, and a positive dipole in the H atoms
When salt and water are mixed together, the result is an homogenous solution
Preparing a solution is a physical process because the components of the mixture can be easily separated by a simple distillation
However, when these substances are mixed the lattice structure of salt breaks down
Therefore, the ionic bonds between the atoms in the lattice are broken down
Afterwards, two types of ion-dipole interactions are formed:
Na+ and O
Cl- and H
Ionic bonds are broken and ion-dipole interactions are formed during this process, therefore this can be considered a chemical process
A lattice structure of NaCl is broken down when mixing it with water
Preparing a solution of an ionic compound can be considered either a physical (preparing a mixture) or chemical change (breaking the ionic bonds and forming ion-dipole interactions)
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