Pregunta 1
Pregunta
A polymer contains two types of bond. What are they?
Respuesta
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Covalent and intramolecular?
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Ionic and covalent?
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Covalent and intermolecular?
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Ionic and intermolecular?
Pregunta 2
Pregunta
When metals form ions, they [blank_start]lose[blank_end] electrons, resulting in a [blank_start]positively[blank_end] charged atom (otherwise known as a cation). When a non-metal forms an ion, they [blank_start]receive[blank_end] electrons, resulting in a [blank_start]negatively[blank_end] charged ion (also known as an anion). The amount of electrons gained or lost forms the [blank_start]charge[blank_end] of an ion.
The [blank_start]transferring[blank_end] of electrons in ionic bonding can be shown with a [blank_start]dot[blank_end] and cross diagram.
Respuesta
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lose
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positively
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receive
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negatively
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charge
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transferring
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dot
Pregunta 3
Pregunta
As you go down the groups, the reactivity changes. In groups 1 and 2, as you go down, the reactivity [blank_start]increases[blank_end]. This is because the outer shell is [blank_start]further away[blank_end] from the [blank_start]nucleus[blank_end] and the electrons have [blank_start]less[blank_end] of an attraction to the nucleus, meaning they can give away their valence electrons easier.
As you go down groups 6 and 7, it is the [blank_start]opposite[blank_end]. As you go down the elements become [blank_start]less[blank_end] reactive. The valence electrons are still less attracted to the nucleus, but that makes it [blank_start]harder[blank_end] for them to attract more electrons.
Respuesta
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increases
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decreases
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closer to
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further away
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nucleus
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other shells
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less
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more
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opposite
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same
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more
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less
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easier
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harder
Pregunta 4
Pregunta
Ionic compounds have a giant [blank_start]regular[blank_end] [blank_start]lattice[blank_end] [blank_start]structure[blank_end]. The positive / negative bonds hold each [blank_start]ion[blank_end] in place in the [blank_start]3D[blank_end] structure.
Respuesta
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regular
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irregular
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lattice
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lettuce
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structure
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ion
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atom
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3D
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2D
Pregunta 5
Pregunta
The order of strength in bonds from highest to lowest is:
Ionic
Metallic
Covalent
Intermolecular.
Pregunta 6
Pregunta
Ionic compounds conduct electricity as solids, liquids and dissolved.
Pregunta 7
Pregunta
Metals also have a [blank_start]lattice[blank_end] structure. The valence electrons of each metal atom are lost to the structure to create a sea of [blank_start]delocalised[blank_end] electrons. This turns each metal atom into a positive [blank_start]ion[blank_end]. The positive / negative charges create an electrostatic forces that keep the delocalised electrons within the structure, but still free to move around.
Pure metals have a [blank_start]high[blank_end] melting and boiling point, high tensile strength and are also malleable.
Respuesta
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lattice
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delocalised
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ion
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high
Pregunta 8
Pregunta
Tick all that apply about small molecules.
Respuesta
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They have low melting and boiling points.
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They are made with two and only two non-metal atoms.
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The molecules can bond together with intermolecular forces to create a larger version of itself. (e.g lots of molecules of water make a glass of water).
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The intermolecular forces are easy to break but the covalent bonds inside the molecules aren't.
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Most are gaseous or liquid at room temperature.
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They are good conductors.
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They have high melting and boiling points.
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They are made of two or more non-metal atoms.
Pregunta 9
Pregunta
Giant covalent structures are sometimes known as macromolecules.
Pregunta 10
Pregunta
An alletrope is a pure element in a [blank_start]different[blank_end] physical form.
There are many alletropes of carbon.
Diamond is one of them. It has a [blank_start]tetrahedral[blank_end] structure where each carbon atom forms [blank_start]four[blank_end] covalent bonds. This makes it very [blank_start]hard[blank_end] and a non-conductor. Diamond is [blank_start]lustrous[blank_end] and is good for [blank_start]jewellery[blank_end].
Graphite (and graphene, which is just [blank_start]a single layer[blank_end] of graphite) is different. It has a hexagonal ring structure that forms [blank_start]3[blank_end] covalent bonds. This leaves one free electron per carbon atom, making graphite and graphene very good conductors of electricty and a very good insulator.
The layers of graphene in graphite are held together very [blank_start]loosely[blank_end], which means the layers can slide over each other easily. Graphite is [blank_start]black[blank_end] and opaque with a high melting point, whereas graphene is just [blank_start]one atom[blank_end] thick, transparent and light.
Graphite and graphene are used in pencils and graphene is often used in computer microchips.
Respuesta
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different
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tetrahedral
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hexagonal
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hard
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soft
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lustrous
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jewellery
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multiple layers
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a single layer
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three
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four
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loosely
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tightly
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black
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white
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one atom
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two atoms
Pregunta 11
Pregunta
Nanoparticles are between [blank_start]1[blank_end] and 100 nanometres. They are [blank_start]bigger[blank_end] than atoms and small molecules but [blank_start]smaller[blank_end] than pretty much everything else. They have a high surface area to [blank_start]volume[blank_end] ratio meaning a bigger portion of the particle can react on contact.
Nanoparticles are good [blank_start]catalysts[blank_end] (meaning they can speed up a reaction)< they are good in cosmetics and lubricants, they conduct electricity, are very durable and can contain anti-bacterial proerties.
A [blank_start]fullerene[blank_end], which can deliver drugs to the body, is a good example of a nanoparticle.
Unfortunately, the effect of nanoparticles on the human body is not yet understood, meaning they could be harmful.
Respuesta
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1
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bigger
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smaller
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volume
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catalysts
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fullerene