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What are the 3 types of strong chemical bonds?
ionic, covalent, and metallic
What is ionic bonding?
Force of (electrostatic) attraction between oppositely charged ions
What is covalent bonding?
atoms which share pairs of electrons
What is metallic bonding?
atoms which share delocalised electrons
When does ionic bonding occur?
in compounds formed from metals combined with non-metals
When does covalent bonding occur?
in non-metallic elements and in compounds of non-metals
When does metallic bonding occur?
in metallic elements and alloys
What is an ionic compound?
. giant structure of ions
. held together by strong electrostatic forces of attraction in all directions between oppositely charged ions
. These forces act in all directions in the lattice and this is called ionic bonding
give 3 examples of giant covalent structures
. diamond
. graphite
. silicon dioxide
What changes about the properties of group 7 elements going down the group?
Further down = :
. higher relative molecular mass
. higher melting point
. higher boiling point
. lower reactivity
Describe the bonding between metals
. consist of giant structures of atoms arranged in a regular pattern
. electrons in the outer shell of metal atoms are delocalised and so are free to move through the whole structure
. the sharing of delocalised electrons gives rise to strong metallic bonds
What takes place at the melting point?
melting and freezing
What takes place at the boiling point?
boiling and condensing
What does the amount of energy needed to change state depend on?
the strength of the forces between the particles of the substance
What does the nature of the particles involved in a change of state depend on?
. type of bonding
. structure of substance
What are the limitations of the simple particle model?
. there are no forces between spheres
. all particles are represented as spheres
. the spheres are solid
What are some properties of ionic compounds and why?
. high melting and boiling point because of the large amounts of energy needed to break the many strong bonds
. When melted or dissolved in water, conduct electricity because the ions are free to move and so charge can flow
What state are small molecules?
. usually gases or liquids that have relatively low melting and boiling points
Why are small molecules usually gases or liquids?
. only have weak intermolecular forces
. these are overcome when the substance melts or boils
. intermolecular forces increase with size of the molecules so larger molecules have higher melting and boiling points
Do small molecules conduct electricity and why?
no because the molecules do not have an overall electric charge
Describe the structure of polymers
. very large molecules
. atoms within molecules are linked by very strong covalent bonds
. intermolecular forces between molecules are relatively strong and so these substances are solid at room temp
Describe the structure of a giant covalent structure
. all atoms are linked to other atoms by strong covalent bonds
. solids with very high melting points
. these bonds must be overcome to melt or boil these substances
Why are metals more malleable than alloys?
. layers of atoms are able to slide over each other
. so can be bent and shaped
. different sizes of atoms in alloys distort the layers making it more difficult for them to slide over each other
. so alloys are harder than pure metals
Why are metals good conductors of electricity?
delocalised electrons in the metal carry electrical charge through the metal
Why are metals good thermal conductors?
because thermal energy is transferred by the delocalised electrons
Describe the structure and properties of diamond
. each carbon atom forms 4 covalent bonds with other carbon atoms in a giant covalent structure
. very hard
. high melting point
. doesn't conduct electricity
Describe the structure and properties of graphite
. each carbon atom forms 3 covalent bonds with 3 other carbon atoms, forming layers of hexagonal rings
. So high melting point
. layers are free to slide over each other because there are no covalent bonds between the layers, just relatively weak intermolecular forces
. So soft and slippery
. 1 electron per atom is delocalised
. So conducts thermal energy and electricity
What is graphene?
A single layer of graphite (1 atom thick)
What are fullerenes?
molecules of carbon atoms with hollow shapes
Describe the structure of fullerenes
. based on hexagonal rings of carbon
. may also contain rings with 5 or 7 carbon atoms
What was the first fullerene to be discovered?
. Buckminsterfullerene
. spherical shape
What are the properties of carbon nanotubes?
. cylindrical fullerenes
. high tensile strength (can be pulled without stretching)
. high electrical and thermal conductivity
What are some uses of fullerenes?
. drug delivery into the body
. lubricants
. catalysts
What are some uses of carbon nanotubes?
reinforcing materials e.g in tennis rackets
How big is a nanometre?
1 x 10^-9 m
How big is the nucleus of an atom?
1 x 10 ^-14 m
How big is the radius of an atom?
1 x 10^-10m OR 0.1nm
How big are nanoparticles?
between 1 - 100 nm
How big are fine particles (also called PM2.5) ?
diameters between 100 - 2500 nm
How big are coarse particles (also called PM10) ?
diameters between 2,500 - 10,000 nm
(often referred to as dust)
What happens to the surface area : volume ratio of a cube if the side decreases by a factor of 10
it increases by a factor of 10
Why might nanoparticles have different properties to the same materials in bulk?
because of their higher surface area : volume ratio
Why might smaller quantities of nanoparticles be as effective as normal particles?
because of their higher surface area : volume ratio
What are some uses of nanoparticles?
. controlled drug delivery
. synthetic skin
. electronics
. cosmetics and sun creams
. development of new catalysts for fuel cell materials
. in deodorants and fabrics to prevent growth of bacteria
What are some benefits of nanoparticles in sun cream?
. better skin coverage
. more effective protection from sun's ultraviolet rays
What are some disadvantages of nanoparticles in sun cream?
. potential cell damage
. harmful effects on the environment
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