C2.3.2 Properties of Simple Molecular Substances

Cards (56)

Weak intermolecular forces are stronger than covalent bonds
False
Simple molecular substances have low melting and boiling points due to weak intermolecular forces
Simple molecular substances do not conduct electricity because they lack free-moving electrons
Steps involved in the formation of van der Waals forces:
1️⃣ Temporary fluctuations in electron distribution
2️⃣ Creation of temporary dipoles
3️⃣ Attraction between neighboring molecules
Simple molecular substances have low melting and boiling points because of weak intermolecular forces
Examples of simple molecular substances include water, carbon dioxide, and methane
Hydrogen bonds are stronger than van der Waals forces 
True
Steps involved in the formation of hydrogen bonds:
1️⃣ Hydrogen atoms bond to highly electronegative atoms
2️⃣ Strong dipole-dipole attraction forms
The strength of hydrogen bonds depends on the number of hydrogen bonds formed 
True
Weak intermolecular forces include van der Waals forces and hydrogen bonds.
Hydrogen bonds occur when hydrogen atoms are bonded to electronegative atoms like oxygen or nitrogen.
Match the type of intermolecular force with its key factors:
Van der Waals ↔️ Molecule size
Hydrogen Bonds ↔️ Number of hydrogen bonds
Polar molecules form stronger intermolecular interactions.
Match the substance with its physical state at room temperature:
Water ↔️ Liquid
Carbon dioxide ↔️ Gas
Simple molecular substances have low melting and boiling points.
The weak intermolecular forces in simple molecular substances require little energy to overcome, resulting in low melting and boiling points. 
True
Match the substance with its solubility in water:
Water ↔️ Highly soluble
Methane ↔️ Insoluble
Ethanol ↔️ Soluble
Simple molecular substances are held together by weak intermolecular forces.
Weak intermolecular forces are attractive forces between molecules that are weaker than covalent or ionic bonds
Hydrogen bonds are stronger than van der Waals forces. 
True
Hydrogen bonds occur when hydrogen atoms are bonded to highly electronegative atoms like oxygen or nitrogen
How does the size of a molecule affect van der Waals forces?
Larger molecules increase forces
Match the type of intermolecular force with its strength and key factors:
Van der Waals ↔️ Weak, Molecule size
Hydrogen Bonds ↔️ Stronger, Number of hydrogen bonds
Water is a simple molecular substance that is a liquid at room temperature due to its strong hydrogen bonds
Why do simple molecular substances have low melting and boiling points?
Weak intermolecular forces
Water is highly soluble in water due to its polarity and ability to form hydrogen bonds. 
True
Simple molecular substances have poor electrical conductivity because they have no free electrons or ions
Simple molecular substances are held together by weak intermolecular forces such as van der Waals forces and hydrogen bonds
Simple molecular substances are composed of small molecules
At room temperature, simple molecular substances can exist in a solid, liquid, or gas
Simple molecular substances are generally soluble in water
True
Match the simple molecular substance with its chemical formula:
Water ↔️ H2O
Carbon dioxide ↔️ CO2
Methane ↔️ CH4
Ammonia ↔️ NH3
Simple molecular substances are held together by strong covalent bonds
False
Simple molecular substances are good electrical conductors
False
Simple molecular substances have similar properties to ionic compounds
False
The strength of intermolecular forces increases with the size of molecules
Intermolecular forces become stronger when molecules are more polar
Match the type of intermolecular force with its relative strength:
Van der Waals forces ↔️ Weaker
Hydrogen bonds ↔️ Stronger
Van der Waals forces arise from temporary fluctuations in electron distribution. 
True
Hydrogen bonds are stronger than van der Waals forces. 
True