Hello, it would be helpful if you could provide the table referenced in the question!
For this question this is what I thought it would be but I’m not really sure:
Magnesium- giant ionic lattice structure with alternating charges arranged in repeating units Conducts electricity in both molten and solid state- ions are mobile (delocalised electrons move through the structure carrying charge) Mg has the highest melting point because of its strong metallic bonds. This means that large amounts of energy is needed to overcome the electrostatic attraction between the cations and electrons. Thus it’s high melting point.
Bromine- simple molecular lattice structure or simple covalent lattice structure Melting point depends on the induced dipole dipole forces between the molecules. The forces are weak and so easily overcome the increased kinetic energy hence has a low melting point Bromine has no mobile ions or delocalised electrons so is fixed in position so cannot conduct electricity.
Magnesium bromide- giant ionic lattice structure consisting of alternating charges arranged in repeating units. Magnesium bromide also has a high melting point because of its strong metallic bonds. This means that large amounts of energy is needed to overcome the electrostatic attraction between the cations and electrons. Thus it’s high melting point. Magnesium bromide is a good conductor of electrify in molten state as ions are mobile yet in solid state they are fixed in position and so cannot move so cant conduct electricity in solid state
Can someone pls check this it’s a six marker so I wasn’t too sure
For this question this is what I thought it would be but I’m not really sure:
Magnesium- giant ionic lattice structure with alternating charges arranged in repeating units Conducts electricity in both molten and solid state- ions are mobile (delocalised electrons move through the structure carrying charge) Mg has the highest melting point because of its strong metallic bonds. This means that large amounts of energy is needed to overcome the electrostatic attraction between the cations and electrons. Thus it’s high melting point.
Bromine- simple molecular lattice structure or simple covalent lattice structure Melting point depends on the induced dipole dipole forces between the molecules. The forces are weak and so easily overcome the increased kinetic energy hence has a low melting point Bromine has no mobile ions or delocalised electrons so is fixed in position so cannot conduct electricity.
Magnesium bromide- giant ionic lattice structure consisting of alternating charges arranged in repeating units. Magnesium bromide also has a high melting point because of its strong metallic bonds. This means that large amounts of energy is needed to overcome the electrostatic attraction between the cations and electrons. Thus it’s high melting point. Magnesium bromide is a good conductor of electrify in molten state as ions are mobile yet in solid state they are fixed in position and so cannot move so cant conduct electricity in solid state
Can someone pls check this it’s a six marker so I wasn’t too sure
Magnesium- giant ionic lattice structure with alternating charges arranged in repeating units Conducts electricity in both molten and solid state- ions are mobile (delocalised electrons move through the structure carrying charge)
Mg has the highest melting point because of its strong metallic bonds. This means that large amounts of energy is needed to overcome the electrostatic attraction between the cations and electrons. Thus it’s high melting point.
Bromine- simple molecular lattice structure or simple covalent lattice structure Melting point depends on the induced dipole dipole forces between the molecules. The forces are weak and so easily overcome the increased kinetic energy hence has a low melting point Bromine has no mobile ions or delocalised electrons so is fixed in position so cannot conduct electricity.
Magnesium bromide- giant ionic lattice structure consisting of alternating charges arranged in repeating units. Magnesium bromide also has a high melting point because of its strong metallic bonds. This means that large amounts of energy is needed to overcome the electrostatic attraction between the cations and electrons. Thus it’s high melting point.
Magnesium bromide is a good conductor of electrify in molten state as ions are mobile yet in solid state they are fixed in position and so cannot move so cant conduct electricity in solid state
For this question this is what I thought it would be but I’m not really sure:
Magnesium- giant ionic lattice structure with alternating charges arranged in repeating units Conducts electricity in both molten and solid state- ions are mobile (delocalised electrons move through the structure carrying charge) Mg has the highest melting point because of its strong metallic bonds. This means that large amounts of energy is needed to overcome the electrostatic attraction between the cations and electrons. Thus it’s high melting point.
Bromine- simple molecular lattice structure or simple covalent lattice structure Melting point depends on the induced dipole dipole forces between the molecules. The forces are weak and so easily overcome the increased kinetic energy hence has a low melting point Bromine has no mobile ions or delocalised electrons so is fixed in position so cannot conduct electricity.
Magnesium bromide- giant ionic lattice structure consisting of alternating charges arranged in repeating units. Magnesium bromide also has a high melting point because of its strong metallic bonds. This means that large amounts of energy is needed to overcome the electrostatic attraction between the cations and electrons. Thus it’s high melting point. Magnesium bromide is a good conductor of electrify in molten state as ions are mobile yet in solid state they are fixed in position and so cannot move so cant conduct electricity in solid state
Can someone pls check this it’s a six marker so I wasn’t too sure
I would give this full mark. It mentions the physical properties of each substance and explains why by linking it to its structure and bonding.