The Covalent Model (DP IB Chemistry)

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  • What is a covalent bond?

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  • What is a covalent bond?

    Covalent bonds are electrostatic attractions between a shared pair of electrons and positively charged nuclei.

  • True or False?

    Covalent bonds involve the transfer of electrons.

    False.

    Covalent bonds involve the sharing of electrons, not transfer.

  • What is meant by the octet rule?

    The octet rule refers to the tendency of atoms to gain a valence shell with a total of 8 electrons.

  • What is expanding the octet rule?

    Expanding the octet rule is when the central atom of a covalently bonded molecule can accommodate more than 8 electrons in its outer shell.

  • What is meant by electron deficient?

    Electron deficient is when the central atom of a covalently bonded molecule accommodates less than 8 electrons in its outer shell.

  • True or False?

    Covalent bonds form between non-metal atoms.

    True.

    Covalent bonds form between non-metal atoms.

  • Why do atoms form covalent bonds?

    Atoms form covalent bonds to gain the electronic configuration of a noble gas and become stable.

  • How is a covalent bond represented?

    A covalent bond is represented using a straight line, like those shown here in propane.

    Structural formula of propane, showing three carbon atoms single-bonded in a chain with each carbon atom bonded to hydrogen atoms.
  • What are meant by electron charge clouds?

    Electron 'charge clouds' refer to a region where electrons in a covalent bond are most likely to be found, due to their constant motion.

  • What is the main difference between covalent and ionic bonding?

    The main difference is that covalent bonding involves sharing electrons between non-metals, while ionic bonding involves the transfer of electrons between metals and non-metals.

  • What are Lewis formulas?

    Lewis formulas show all of the valence electrons, including bonding and non-bonding pairs in a covalently bonded structure.

  • True or False?

    Lewis formulas can also be known as electron dot and Lewis structures.

    True.

    Lewis formulas can also be known as electron dot and Lewis structures.

  • How can electrons be represented in Lewis formulas?

    Lewis formulas can be represented using dots, crosses or dashes.

  • True or False?

    The Lewis formula of chlorine is:

    Cl minusCl

    False.

    The Lewis formula of chlorine can be shown as:

    Two chlorine (Cl) atoms are each surrounded by seven blue dots representing valence electrons, sharing a pair of electrons to form a single covalent bond.
  • Draw the Lewis formula for PF5 using dashes.

    The Lewis formula for PF5 using dashes is:

    Chemical structure diagram of phosphorus pentafluoride, showing a central phosphorus (P) atom bonded to five fluorine (F) atoms in a trigonal bipyramidal arrangement.
  • Draw the Lewis formula for nitrous oxide, HNO2.

    The Lewis formula for nitrous oxide, HNO2 is:

    Chemical structure showing H single-bonded to O, single-bonded to N, double-bonded to O with lone pairs on O, N, and double-bonded O.
  • What is the first step in drawing a Lewis formula?

    The first step in drawing a Lewis formula is to count the total number of valence electrons.

  • What does an incomplete octet mean in Lewis structures?

    An incomplete octet in Lewis structures refers to elements that form stable compounds with less than 8 electrons in their valence shell.

  • Draw the Lewis formula for CCl4.

    The Lewis formula for CCl4 using dots is:

    Lewis structure of carbon tetrachloride (CCl4), showing a central carbon atom bonded to four chlorine atoms, each with three lone pairs of electrons.
  • Draw the Lewis formula for BeCl2.

    The Lewis formula for BeCl2 is:

    Lewis structure of beryllium chloride (BeCl2) showing beryllium in the center bonded to two chlorine atoms, each chlorine has six valence electrons around it.
  • How many shared pairs of electrons are involved in a single covalent bond?

    One shared pair of electrons is involved in a single covalent bond.

  • How many shared pairs of electrons are involved in a triple covalent bond?

    Three shared pairs of electrons are involved in a triple covalent bond.

  • How many electrons are shared in a double covalent bond?

    Four electrons are shared in a double covalent covalent bond.

  • True or False?

    Triple bonds are longer than single bonds.

    False.

    Triple bonds are shorter than single bonds.

  • What is the relationship between bond length and bond strength?

    As bond length decreases, bond strength increases.

  • True or False?

    It is possible to form quadruple bonds between atoms.

    False.

    It is not possible to form quadruple bonds as the repulsion from having 8 electrons in the same region between two nuclei is too great.

  • How does the strength of a triple bond compare to a single bond?

    Triple bonds are stronger than single bonds due to greater electron density between the nuclei.

  • Which type of covalent bond is the longest and weakest?

    Single covalent bonds are the longest and weakest.

  • True or False?

    The greater the forces of attraction between the electrons in the covalent bond and the nuclei, the stronger the covalent bond.

    True.

    The greater the forces of attraction between the electrons in the covalent bond and the nuclei, the stronger the covalent bond.

  • Which type of covalent bond is the shortest and strongest?

    Triple covalent bonds are the shortest and strongest.

  • What is a coordination bond?

    A coordination bond is a covalent bond in which both the electrons of the shared pair originate from the same atom.

  • What else can coordination bonds be known as?

    Coordination bonds are also known as dative covalent bonds and coordinate bonds.

  • True or False?

    Only non-metals can form coordinate bonds.

    False.

    Both metals and non-metals can form coordinate bonds.

  • Draw the displayed formula of NH3BF3.

    The displayed formula of NH3BF3 is:

    Diagram of ammonia (NH3) bonding with boron trifluoride (BF3), showing nitrogen with three hydrogen atoms and forming a coordinate bond to boron, which is bonded to three fluorine atoms.
  • Name the type of bond formed between an ammonia molecule and hydrogen ion to form an ammonium ion.

    The type of bond formed between an ammonia molecule and hydrogen ion to form an ammonium ion is a coordination bond.

  • True or False?

    Coordination bonds are weaker than regular covalent bonds.

    False.

    Coordination bonds are just as strong as regular covalent bonds once formed.

  • What is VSEPR theory?

    VSEPR theory (Valence Shell Electron Pair Repulsion theory) is a model used to predict the shapes of molecules based on the repulsion between electron pairs.

  • State the rules of VSEPR theory which are used to predict the shape of a covalent molecule.

    The rules of VSEPR theory are:

    • All electron pairs arrange themselves as far apart in space as is possible

    • Lone pairs repel more strongly than bonding pairs

    • Repulsion between multiple and single bonds is treated the same as for repulsion between single bonds

  • What is the bond angle in a tetrahedral molecule?

    The bond angle in a tetrahedral molecule is approximately 109.5°.

  • True or False?

    Molecules with a linear shape have bond angles of 120o.

    False.

    Molecules with a linear shape have bond angles of 180o.

  • What shape does a molecule with four electron domains, including one lone pair, adopt?

    A molecule with four electron domains, including one lone pair, adopts a trigonal pyramidal shape.

  • Give the molecular shape of a molecule with three electron domains in which there are no lone pairs.

    The molecular shape of a molecule with three electron domains in which there are no lone pairs is trigonal planar / triangular planar.

  • True or False?

    Molecules with four electron domains can be tetrahedral, trigonal pyrimidal or bent linear.

    True.

    Molecules with four electron domains can be tetrahedral, trigonal pyrimidal or bent linear depending on how many lone pairs they have.

  • What is the bond angle in a molecule with trigonal planar domain geometry and one lone pair?

    The bond angle in a molecule with trigonal planar domain geometry and one lone pair is 118o.

  • What shape does a CCl4 molecule have?

    A CCl4 molecule has a tetrahedral shape.

  • Predict the shape and bond angle for a BF3 molecule.

    The shape and bond angle for a BF3 molecule is:

    • Shape: Trigonal planar

    • Bond angle: 120o

  • What is the difference between electron domain geometry and molecular geometry?

    Electron domain geometry includes all electron domains (bonding and non-bonding), while molecular geometry only considers the arrangement of atoms.

  • Give the domain shape of a molecule of ammonia.

    The domain shape of a molecule of ammonia is tetrahedral.

  • Give the molecular shape of a molecule of ammonia.

    The molecular shape of a molecule of ammonia is trigonal pyramid.

  • Define the term electronegativity.

    Electronegativity is the ability of an atom to draw an electron pair towards itself in a covalent bond.

  • What is a polar bond?

    A polar bond is a covalent bond in which electrons are unequally shared between atoms, resulting in a partial positive charge on one atom and a partial negative charge on the other.

  • What does δ+ symbolise in bond polarity?

    δ+ symbolises a partial positive charge in a polar bond and is assigned to the less electronegative atom.

  • What does δ- symbolise in bond polarity?

    δ- symbolises a partial negative charge in a polar bond and is assigned to the more electronegative atom.

  • True or False?

    All covalent bonds are polar.

    False.

    Not all covalent bonds are polar; bonds between atoms with equal electronegativity are non-polar.

  • What determines the extent of polarity in a covalent bond?

    The extent of polarity in a covalent bond is determined by the difference in electronegativity between the bonded atoms.

  • True or False?

    The greater the difference in electronegativity, the more polar the bond.

    True.

    The greater the difference in electronegativity, the more polar the bond.

  • What is meant by a non-polar bond?

    A non-polar bond is a covalent bond in which electrons are shared equally between atoms with similar electronegativities.

  • Why is the bond between two chlorine atoms non-polar?

    The bond between two chlorine atoms is non-polar because the two atoms have the same electronegativities so the electrons are shared equally between them.

  • What is a dipole moment?

    A dipole moment is a measure of the polarity of a bond, represented by an arrow pointing towards the partially negative end of the dipole.

  • What element has the highest electronegativity on the Pauling scale?

    Fluorine has the highest electronegativity on the Pauling scale.

  • How does bond polarity affect the properties of a molecule?

    Bond polarity affects properties such as solubility, boiling point, and reactivity of a molecule.

  • What determines whether a molecule is polar?

    The polarity of a molecule is determined by both the polarity of individual bonds and the overall geometry of the molecule.

  • True or False?

    All molecules with polar bonds are polar.

    False.

    Not all molecules with polar bonds are polar; the overall geometry can result in a non-polar molecule.

  • True or False?

    CCl₄ is a polar molecule.

    False.

    CCl₄ is a non-polar molecule because although there are four polar covalent bonds, the individual dipole moments cancel each other out.

  • Is BF3 a polar or non-polar molecule?

    BF3 is a non-polar molecule because it is symmetrical.

    A chemical diagram of boron trifluoride (BF3) showing a boron atom at the center bonded to three fluorine atoms in a trigonal planar arrangement.
  • Why can some molecules with polar bonds not be polar overall?

    Molecules with polar bonds may not be polar overall because the arrangement of the polar bonds within the molecule allow the individual dipole moments to cancel each other out.

  • What are giant covalent structures?

    Giant covalent structures are solids with high melting points, consisting of a huge number of non-metal atoms bonded to other non-metal atoms via strong covalent bonds.

  • Define the term allotrope.

    An allotrope is a different structural form of the same element.

  • True or False?

    Giant covalent structures are also called giant lattices.

    True.

    Giant covalent structures are also called giant lattices.

  • Name this giant covalent structure.

    Three rows of hexagonal grid-like patterns with interconnected nodes, displayed in a linear arrangement. Each row contains two segments side by side.

    This giant covalent structure is graphite.

    Three rows of hexagonal grid-like patterns with interconnected nodes, displayed in a linear arrangement. Each row contains two segments side by side.
  • Why do giant covalent structures have high melting points?

    Giant covalent structures have high melting points because there are many strong covalent bonds between atoms which require lots of energy to overcome.

  • Name this giant covalent structure.

    A complex molecular structure with interconnected black dots representing atoms and black lines representing bonds, forming a branching pattern.

    This giant covalent structure is diamond.

    A complex molecular structure with interconnected black dots representing atoms and black lines representing bonds, forming a branching pattern.
  • What element makes up diamond and graphite?

    Diamond and graphite are made from carbon atoms.

  • What elements make up silicon dioxide?

    Silicon dioxide (silica) is made from silicon and oxygen.

  • True or False?

    Giant covalent structures are gases at room temperature.

    False.

    Giant covalent structures are solids at room temperature.

  • True or False?

    The ratio of atoms in a giant covalent structure can vary.

    False.

    Giant covalent structures have a fixed ratio of atoms in the overall structure.

  • Name this giant covalent structure.

    Molecular structure diagram featuring interconnected black and white circles linked by lines, representing atoms and bonds in a complex chemical compound.

    This giant covalent structure is silicon dioxide.

    Molecular structure diagram featuring interconnected black and white circles linked by lines, representing atoms and bonds in a complex chemical compound.
  • Describe the structure of graphite.

    In graphite:

    • Each carbon atom is bonded to three others

    • There are hexagonal layers

    • There is one free / delocalised electron per carbon atom

  • Explain why graphite conducts electricity.

    Graphite conducts electricity because it has delocalised electrons that can move and carry a charge throughout the structure.

  • Why is graphite soft and slippery?

    Graphite is soft because there are weak intermolecular forces betwen the layers, which allows the layers to slide over each other.

  • How many bonds does each carbon atom in graphite form?

    In graphite each carbon atom forms three bonds.

  • Why is diamond hard?

    Diamond is hard because each carbon atom is bonded to four other carbon atoms via strong covalent bonds.

  • How many bonds does each carbon atom form in diamond?

    Each carbon atom forms four bonds.

  • Give the bond angle between carbon atoms in diamond.

    The bond angle between carbon atoms in diamond is 109.5o.

  • Give the formula of Buckminsterfullerene.

    The formula of Buckminsterfullerene is C60.

  • True or False?

    Graphene is a 3D molecule.

    False.

    Graphene is essentially a 2D molecule since it is only one atom thick.

  • True or False?

    Silicon dioxide has a tetrahedral shape.

    True.

    Silicon dioxide has a tetrahedral shape.

  • Why can diamond and silicon dioxide not conduct electricity?

    Diamond and silicon dioxide cannot conduct electricity because all four electrons are involved in a covalent bond so there are no free electrons to carry a charge.

  • Describe the structure of silicon.

    Silicon has each atom bonded covalently to four other silicon atoms in a giant lattice structure.

  • Give two properties of silicon.

    Properties of silicon include:

    • Good thermal conductivity

    • Good mechanical strength

    • Poor electrical conductivity

    • High melting and boiling point

  • What are intermolecular forces?

    Intermolecular forces are forces of attraction between molecules.

  • Name the four types of intermolecular force.

    Three types of intermolecular forces are:

    • London (dispersion) forces

    • Dipole-induced dipole

    • Dipole-dipole attraction

    • Hydrogen bonding

  • What are London (dispersion) forces?

    London (dispersion) forces are weak intermolecular forces arising from temporary fluctuations in electron distribution, present between all atoms and molecules.

  • What is the strongest type of intermolecular force in hydrogen chloride, HCl?

    The strongest type of intermolecular force in hydrogen chloride is permanent dipole- permanent dipole.

  • True or False?

    Hydrogen bonding is the weakest type of intermolecular force.

    False.

    Hydrogen bonding is the strongest type of intermolecular force.

  • What is required for hydrogen bonding to take place?

    For hydrogen bonding to take place:

    • A species which has a very electronegative atom, O, N or F, with an available lone pair of electrons

    • A hydrogen attached to the O, N or F

  • What is the strongest type of intermolecular force in ammonia, NH3?

    The strongest type of intermolecular force in ammonia, NH3 is hydrogen bonding.

  • True or False?

    London (dispersion) forces are present between all atoms and molecules.

    True.

    London (dispersion) forces are present between all atoms and molecules.

  • What happens to the strength of London (dispersion) forces as the size of a molecule increases?

    As the size of a molecule increases, the strength of the London (dispersion) forces increases.

  • True or False?

    Krypton has weaker London (dispersion) forces than argon.

    False.

    Krypton has stronger London (dispersion) forces than argon because it has a greater number of electrons.

  • True or False?

    Van der Waals forces include only London (dispersion) forces.

    False.

    Van der Waals forces include:

    • London (dispersion) forces

    • Dipole-induced dipole attractions

    • Dipole-dipole attractions.

  • What are permanent dipole-permanent dipole forces?

    Permanent dipole-permanent dipole forces are forces of attraction between the δ+ of one polar molecule and the δ- of another polar molecule.

  • Which type of intermolecular force are the weakest?

    London (dispersion) forces are the weakest type of intermolecular force.

  • Which type of intermolecular force are the strongest?

    Hydrogen bonds are the strongest type of intermolecular force.

  • Describe the relationship between the strength of the intermolecular forces and the polarity of the molecule.

    The more polar a molecule, the stronger the intermolecular forces.

  • True or False?

    CH3CH2CH2CH3 has a higher boiling point than CH3CH2CH2OH 

    False.

    CH3CH2CH2CH3 has a lower boiling point than CH3CH2CH2OH because it has only London (dispersion) forces whereas CH3CH2CH2OH also has hydrogen bonding.

  • What happens to the solubility of a covalent molecule as it becomes larger?

    As the covalent molecule becomes larger, their solubility decreases.

  • True or False?

    Polar covalent substances generally dissolve in polar solvents.

    True.

    Polar covalent substances generally dissolve in polar solvents.

  • Explain why many covalent substances are unable to conduct electricity.

    Many covalent substances are unable to conduct electricity because there are no freely moving charged particles.

  • True or False?

    Substances with high melting and boiling points are said to be very volatile.

    False.

    Substances with low melting and boiling points are said to be very volatile

  • Explain why butan-1-ol has a higher boiling point than butanal.

    Butan-1-ol has a higher boiling point than butanal because it contains hydrogen bonding whereas butanal contains dipole-dipole forces. Hydrogen bonds are stronger than dipole-dipole forces so need more energy to overcome them.

  • Why is ethane insoluble in water?

    Ethane is insoluble in water because it does not have any polar bonds, so will not dissolve well in water which does contain polar bonds. Ethane cannot form hydrogen bonds with the water.

  • Name two types of chromatography.

    Two types of chromatography are:

    • Paper chromatography

    • Thin-layer chromatography (TLC)

  • What is chromatography used for?

    Chromatography is a technique used to separate the components of a mixture based on their relative attractions to mobile and stationary phases.

  • What does a single spot on a chromatogram indicate?

    A single spot on a chromatogram indicates that the substance is pure.

  • Explain what the the baseline in paper chromatography should be drawn in.

    The baseline in paper chromatography should be drawn in pencil to prevent it running along with / contaminating the samples.

  • True or False?

    The solvent level should start above the pencil line when carrying out paper chromatography.

    False.

    The solvent level should not start above the pencil line, as this would ruin the chromatogram.

  • How many substances are in sample D?

    Chromatogram

    There are 3 substances in D.

    Chromatogram
  • True or False?

    Multiple spots on a chromatogram indicate a pure substance.

    False.

    Multiple spots on a chromatogram indicate that the substance is a mixture.

  • True or False?

    If two substances are the same, they will produce identical chromatograms.

    True.

    If two substances are the same, they will produce identical chromatograms.

  • Which colours, from A-E ,does black food colouring contain?

    Chromatogram for black ink

    The black food colouring contains A, E and an unknown.

    Chromatogram for black ink
  • Why does substance B remain on the baseline?

    Chromatogram for black ink

    Substance B remains on the baseline because it is insoluble in the solvent used.

    Chromatogram for black ink
  • State the equation to calculate the retardation factor (Rf value).

    The equation for the retardation factor (Rf value) is:

    fraction numerator Distance space travelled space by space sample over denominator Distance space travelled space by space solvent space front end fraction

  • What does an Rf value closer to 1 indicate?

    An Rf value close to 1 indicates that the component is very / highly soluble in the solvent used.

  • True or False?

    The Rf value of a compound is always the same, regardless of the solvent used.

    False.

    The Rf value of a compound depends on the solvent used.

    If the solvent is changed, the Rf value will change.

  • What is the purpose of calculating Rf values?

    The purpose of calculating Rf values is to allow chemists to identify unknown substances.

  • Why does an Rf value have no units?

    An Rf value does not have units because it is a ratio.

  • What does the Rf value range between?

    The Rf values ranges between 0 and 1.

  • Identify the mobile and stationary phase in the chromatography experiment below.

    Chromatogram 2

    The mobile phase is the water, and the stationary phase is the chromatography paper.

    Chromatogram 2
  • What are the mobile and stationary phases in thin-layer chromatography?

    The mobile and stationary phase in thin-layer chromatography are:

    • Mobile phase - solvent

    • Stationary phase - inert substance e.g. silica or alumina supported on a flat, unreactive surface such as glass

  • True or False?

    During TLC, the components of the sample form hydrogen bonds with the mobile phase.

    False.

    During TLC, the components of the sample form hydrogen bonds with the stationary phase.

  • What is a resonance structure?

    A resonance structure is one in which a molecule or ion can have multiple possible Lewis formulas because there is more than one possible position for a double bond.

  • What is a resonance hybrid structure?

    A resonance hybrid structure is the actual structure of a molecule or ion that is intermediate between its possible resonance structures.

  • What does a dotted line represent in a resonance hybrid structure?

    In a resonance hybrid structure, a dotted line represents the position of delocalised electrons.

  • What is the criteria for forming resonance hybrid structures?

    A resonance hybrid structures must have a double bond that is capable of migrating from one part of a molecule to another.

  • True or False?

    In the nitrate ion, all bonds are equal in length and electron density is spread evenly

    True.

    In the nitrate ion, all bonds are equal in length and electron density is spread evenly.

  • True or False?

    Resonance structures always have different electron arrangements.

    True.

    Resonance structures always have different electron arrangements.

  • Draw the two possible Lewis formulas for the methanoate ion, HCOO-.

    The two possible Lewis formulas for the methanoate ion, HCOO- is:

    Resonance structures of the formate ion with two structures showing C, H, and two O atoms within brackets, connected by a double-headed arrow indicating resonance.
  • Draw the two possible Lewis formulas for ozone, O3.

    The two possible Lewis formulas for ozone are:

    Two resonance structures of the ozone (O3) molecule, showing alternating single and double bonds with lone pairs of electrons and an equilibrium arrow between them.
  • Draw the resonance hybrid structure of ozone, O3.

    The resonance hybrid structure of ozone, O3 is:

    Simple molecule diagram with three circles connected by solid and dashed lines, forming an angle. The top circle connects to two bottom circles.
  • True or False?

    The carbonate ion, CO32-, has two possible Lewis formulas:

    Chemical diagram showing resonance between two structures of the carbonate ion. The left structure has a double bond with the top oxygen, the right with the bottom right oxygen.

    False.

    The carbonate ion, CO32-, has three possible Lewis formulas:

    Three resonance structures of the carbonate ion (CO3 2-) showing the distribution of double bonds and lone pairs on oxygen, connected by double-headed arrows.
  • Describe the structure of benzene.

    Benzene consists of 6 carbon atoms in a hexagonal ring, with alternating single and double carbon-carbon bonds.

  • What are the bond angles in benzene?

    The bond angles in benzene are 120°.

  • True or False?

    Each carbon atom in the benzene rings forms two sigma bonds using the sp2 orbitals.

    False.

    Each carbon atom in the benzene rings forms three sigma bonds using the sp2 orbitals.

  • True or False?

    Benzene has a planar structure.

    True.

    Benzene has a planar structure.

  • Describe the π system in benzene.

    The π system in benzene is made up of two ring-shaped clouds of electron density - one above the plane and one below it.

  • True or False?

    Benzene easily decolourises bromine water.

    False.

    Benzene does not decolourise bromine water.

  • Give the formula of benzene.

    The formula of benzene is C6H6.

  • True or False?

    Benzene has a resonance structure.

    True.

    Benzene has a resonance structure.

  • How do bond lengths provide evidence for the delocalisation of electrons in benzene?

    Bond lengths provide evidence for the delocalisation of electrons in benzene because the bond lengths in benzene are in between that of a single and double carbon carbon bonds.

  • How does infrared spectroscopy provide evidence for the delocalisation of electrons in benzene ?

    Infrared spectroscopy provides evidence for the delocalisation of electrons in benzene because it does not show a peak at 1620-1680 as expected for the C=C bond.

  • Draw the resonance hybrid structure of benzene.

    The resonance hybrid of benzene is:

    Hexagon outline with an inner circle, resembling the shape of a nut used in fastening applications. The hexagon has six straight edges, each meeting at sharp corners.
  • What is meant by expansion of the octet?

    Expansion of the octet is the ability of elements in Period 3 and above to have more than eight electrons in their valence shell.

  • True or False?

    PCl₅ has 5 bonding pairs of electrons around the central atom.

    True.

    PCl₅ has 5 bonding pairs of electrons around the central atom.

  • Define electron domain geometry.

    Electron domain geometry refers to the relative orientation of all the bonding and lone pairs of electrons in a molecule.

  • Why can elements in Period 3 and above expand their octet?

    Elements in Period 3 and above can expand their octet because they have a d-subshell present which can accommodate additional pairs of electrons.

  • What is the electron domain geometry of SF₄?

    The electron domain geometry of SF₄ is trigonal bipyramidal.

    Structural diagram of sulfur tetrafluoride (SF4) molecule, showing bond angles of 117° and 90° with lone pair electrons and fluorine atoms around sulfur.
  • What is the difference between molecular geometry and electron domain geometry?

    Molecular geometry refers to the shape of the molecules based on the relative orientation of the atoms, while electron domain geometry refers to the relative orientation of all the bonding and lone pairs of electrons.

  • True or False?

    BrF5 has five electron domains.

    False.

    BrF5 has six electron domains.

    Molecular structure of bromine pentafluoride (BrF5) showing a central bromine atom surrounded by five fluorine atoms in a square pyramidal arrangement.
  • What is the molecular geometry of PCl5?

    The molecular geometry of PCl5 is trigonal bipyramidal.

    Diagram depicting the molecular geometry of phosphorus pentachloride (PCl₅) with bond angles labeled: 90°, 120°, and 180° between chlorine atoms around phosphorus.
  • The molecular geometry of ClF3 is ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ ‎ .

    The molecular geometry of ClF3 is T-shape.

  • True or False?

    XeF4 has a square planar molecular geometry.

    True.

    XeF4 has a square planar molecular geometry.

    Structural formula of xenon tetrafluoride (XeF4) showing a central xenon atom bonded to four fluorine atoms, with lone pairs of electrons on the xenon.
  • What is meant by formal charge?

    Formal charge is the charge assigned to an atom in a molecule, assuming that all the electrons in the bonds are shared equally between atoms, and is used to determine which of several possible Lewis formulas is preferred.

  • State the equation for calculating formal charge.

    The equation for calculating formal charge is:

    FC = V - ½B - N

    • V is the number of valence electrons

    • B is the number of bonding electrons

    • N is the number of non-bonding electrons.

  • Give two factors used to determine the preferred Lewis formula.

    Two factors used to determine the preferred Lewis formula are:

    • The difference in the formal charge of the atoms

    • The location of the negative charge (it should be on the most electronegative atom).

  • True or False?

    The preferred Lewis formula is the one with the largest difference in formal charges.

    False.

    The preferred Lewis formula is the one with the smallest difference in formal charges.

  • What is the purpose of calculating formal charges?

    The purpose of calculating formal charges is to determine which Lewis structure is preferred and most consistent with other information such as spectroscopic data on bond lengths and electron density.

  • True or False?

    Formal charge calculations consider the total number of atoms in each molecule.

    False.

    Formal charge considers each type of atom and does not count the total number of atoms in the molecule.

  • Give the formal charge of the carbon atoms in this Lewis formula of in carbon dioxide.

    Carbon dioxide (CO2) molecule structure with a carbon atom double-bonded to two oxygen atoms on either side, each oxygen having two pairs of dots representing lone electron pairs.

    The formal charge of the carbon atom is:

    • FC on carbon = (4) - ½(8) - (0) = 0

      Carbon dioxide (CO2) molecule structure with a carbon atom double-bonded to two oxygen atoms on either side, each oxygen having two pairs of dots representing lone electron pairs.
  • Give the formal charge on the nitrogen atom in this Lewis formula of nitrous oxide.

    Chemical structure of nitrous oxide (N2O): one nitrogen bonded to another nitrogen, which is triple-bonded to an oxygen atom. Both oxygens have two lone pairs each.

    The formal charge of the nitrogen atom is:

    • FC on central nitrogen = (5) - ½(8) -(0) = +1

      Chemical structure of nitrous oxide (N2O): one nitrogen bonded to another nitrogen, which is triple-bonded to an oxygen atom. Both oxygens have two lone pairs each.
  • What is a sigma (σ) bond?

    A sigma (σ) bond is a type of covalent bond formed from the head-on combination of atomic orbitals where the electron density is concentrated along the bond axis.

  • What is a pi (π) bond?

    A pi (π) bond is a type of covalent bond formed by the lateral combination of p-orbitals where the electron density is concentrated on opposite sides of the bond axis.

  • True or False?

    A single covalent bond is always a sigma bond.

    True.

    A single covalent bond is always a sigma bond.

  • Define bond axis.

    The bond axis is an imaginary line between the nuclei of two bonded atoms.

  • What type of bonds make up a double bond?

    A double bond is made up of one sigma (σ) bond and one pi (π) bond.

  • True or False?

    Pi bonds are found in single covalent bonds.

    False.

    Pi bonds are only found within double and triple bonds.

  • How many sigma bonds are in the following molecule?

    Chemical structure of acetic anhydride with two carbonyl (C=O) groups connected by an oxygen atom, and methyl groups (CH3) at both ends.

    Ethanoic anhydride has 12 sigma bonds because:

    • 10 single bonds= 10 sigma bonds

    • 2 double bonds = each has 1 sigma and 1 pi bond

    Chemical structure of acetic anhydride with two carbonyl (C=O) groups connected by an oxygen atom, and methyl groups (CH3) at both ends.
  • How many pi bonds are in the following molecule?

    Chemical structure of butyric acid, showing a chain of four carbon atoms with hydrogen atoms bonded and a double-bonded oxygen and hydroxyl group at the end.

    There are 2 pi bonds in the following molecule:

    Chemical structure of butyric acid, showing a chain of four carbon atoms with hydrogen atoms bonded and a double-bonded oxygen and hydroxyl group at the end.
  • What type of bonds make up a triple bond?

    A triple bond is made up of one sigma (σ) bond and two pi (π) bonds.

  • True or False?

    The greater the atomic orbital overlap, the stronger the bond.

    True.

    The greater the atomic orbital overlap, the stronger the bond.

  • What is hybridisation?

    Hybridisation is the process of mixing atomic orbitals to form new hybrid orbitals suitable for the pairing of electrons to form chemical bonds.

  • What is sp3 hybridisation?

    sp3 hybridisation refers to the blending of a 2s orbital and three 2p orbitals to create four sp3 hybrid orbitals. This occurs when carbon forms single bonds.

  • True or False?

    sp² hybridisation produces three hybrid orbitals.

    True.

    sp² hybridisation produces three hybrid orbitals.

  • What is sp hybridisation?

    sp hybridisation is the mixing of one s orbital and one p orbital to form two equivalent sp hybrid orbitals.

  • What type of hybridisation is found in ethene, C2H4?

    sp² hybridisation is found in ethene, C2H4.

  • What type of hybridisation is found in methane, CH4?

    sp3 hybridisation is found in methane, CH4.

  • True or False?

    sp hybridisation results in a linear geometry.

    True.

    sp hybridisation results in a linear geometry.

  • True or False?

    An sp2 orbital forms when two s-orbitals mixes with two p-orbitals.

    False.

    An sp2 orbital forms when one s-orbital mixes with two p-orbitals.

  • What is the bond angle in sp² hybridised orbitals?

    The bond angle in sp² hybridised orbitals is 120°.

  • What is the bond angle in sp3 hybridised orbitals?

    The bond angle in sp³ hybridised orbitals is 109.5°.

  • What type of hybridisation is found in ethyne, C2H2?

    sp hybridisation is found in ethyne,C2H2.

  • True or False?

    Carbons with sp3 hybrid orbitals can form sigma and pi bonds.

    False.

    Carbons with sp3 hybrid orbitals can only form sigma bonds.

  • What type of bond do carbon atoms with sp2 orbitals form?

    Carbon atoms with sp2 orbitals form double bonds.