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Melting point is dependant upon packing and intermolecular forces. Magnesium and Sodium are both metals, and therefore have metallic bonding. Both are a lattice of positively charged ions surrounded by a sea of delocalized electrons. Magnesium however has 2 delocalized electrons for every one magnesium atom, it therefore forms smaller ions than Sodium, which pack more closely together. The higher number of delocalized electrons in magnesium also pull the positively charged even closer together.
The higher melting point of magnesium oxide compared to sodium chloride is due to the stronger ionic bonds between magnesium and oxygen in magnesium oxide. These bonds require more energy to break, leading to a higher melting point. In contrast, sodium chloride has weaker ionic bonds between sodium and chloride ions, resulting in a lower melting point.
Solid magnesium has an atomic structure of positive ion lattice surrounding by a "cloud" of free-moving dissociated electrons. These electrons hold the ions together in the lattice and must be disrupted to allow magnesium to melt. In iodine the only inter-molecular forces are Van der Waals forces which are weak and easy to disrupt and this means that the amount of energy required to melt iodine is much lower and as such its melting point is much lower.
The sodium ion has a 1+ charge and the chloride ion has a 1- charge.
By comparison the magnesium ion has a 2+ charge and the oxide ion a 2- charge.
Because the charge difference is greater in magnesium oxide, the forces of attraction between the ions are greater. This makes the ions harder to move from their positions which is what happens when a substance melts.
Additionally, the magnesium ion is smaller than the sodium ion and the oxide ion smaller than the chloride ion. This increases the density of the charges and makes forces of attraction even stronger.
Magnesium has two valence electrons where sodium has one. Therefore magnesium can form metallic bonds with more free electrons than sodium. Hence, magnesium has a higher melting point and boiling point.
The crystal structure is a main factor in the melting point of a compound. Ca has several crystal structures and Mg has a closed pack crystal structure.
ok as we saw that ions present in magnesium oxide are double charged while in sodium chloride ions are singly charged so mgo has heigher melting point.
Because Na has fewer protons & Na has a bigger ion, so there is smaller attraction between nucleus & delocalised electrons
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What has the higher melting point sodium chloride or aluminum oxide?
Aluminum oxide has a higher melting point than sodium chloride. Aluminum oxide has a melting point of around 2072°C, while sodium chloride has a melting point of 801°C.
Which has a higher melting point Sodium Chloride or Ethyl Alcohol?
Sodium chloride (table salt) has a higher melting point than ethyl alcohol. Sodium chloride melts at 801°C, while ethyl alcohol melts at -114.1°C.
Does magnesium react with sodium chloride?
No, magnesium does not react with sodium chloride. Magnesium is a less reactive metal compared to sodium, so it does not displace sodium from its compound with chloride.
What happens when you mixed the magnesium chloride solution with the sodium cabonate solution?
When magnesium chloride solution is mixed with sodium carbonate solution, a white precipitate of magnesium carbonate forms. This is a double displacement reaction where the magnesium ions from magnesium chloride exchange with the carbonate ions from sodium carbonate to form the insoluble magnesium carbonate.
What is sodium chlorides melting point?
The melting point of sodium chloride (table salt) is 801 degrees Celsius, or 1474 degrees Fahrenheit.
What has the higher melting point sodium chloride or aluminum oxide?
Aluminum oxide has a higher melting point than sodium chloride. Aluminum oxide has a melting point of around 2072°C, while sodium chloride has a melting point of 801°C.
Does sodium chloride or phosphorus trichloride have a higher melting point?
The melting point of sodium chloride is 801 0C. The melting point of phosphorus trichloride is -93,6 0C.
Which substance sodium oxide or magnesium oxide has higher melting point?
sodium oxide: 1132oC magnesium oxide: 2852oC
Which has a higher melting point Sodium Chloride or Ethyl Alcohol?
Sodium chloride (table salt) has a higher melting point than ethyl alcohol. Sodium chloride melts at 801°C, while ethyl alcohol melts at -114.1°C.
What is the reaction equation for magnesium chloride an sodium carbonate?
MgCI+ NaC ------> MgC + NaCI Magnesium chloride + Sodium carbinate ------> Magnesium carbonate + Sodium chloride.
What is the melting of sodium chloride?
The melting point of sodium chloride is 801 0C.
Is sodium chloride an electrolyte?
As for your body, the major electrolytes are as follows:sodium (Na+)potassium (K+)chloride (Cl-)calcium (Ca2+)magnesium (Mg2+)bicarbonate (HCO3-)phosphate (PO42-)sulfate (SO42-)
Which would you expect to have a higher melting point sodium chloride NaCI or aluminum oxide AI203?
The melting point of sodium chloride is 801 0C. The melting point of aluminium oxide is 2 072 0C.
What is the melting characteristic of sodium chloride?
The melting point of sodium chloride is 801 0C.
What it sodium chloride melting point?
The melting point of sodium chloride is 801 0C.
Is sodium chloride having more melting and boiling point?
Yes, sodium chloride has a higher melting and boiling point compared to most other ionic compounds because of its strong electrostatic forces between the positively charged sodium ions and negatively charged chloride ions.
Why the melting point of sodium chloride is much higher than that of sodium metal?
The melting point of sodium chloride is higher than that of sodium metal because sodium chloride is an ionic compound with strong electrostatic forces between the positively charged sodium ions and negatively charged chloride ions, requiring more energy to break these bonds compared to the metallic bonds present in sodium metal. The metallic bonds in sodium metal are weaker than the ionic bonds in sodium chloride, resulting in a lower melting point for the metal.
