Nature of magnesium and lithium similarity in the following points:
1. magnesium and lithium in excess of oxygen in the combustion, the formation ofperoxides, generated only the normal oxide.
2. magnesium and lithium hydroxide can decompose when heated to the corresponding oxides.
3. magnesium and lithium carbonate are unstable, the decomposition of the corresponding oxides and release carbon dioxide gas.
4. magnesium and lithium salts, such as some fluoride, carbonate, phosphate and hydroxides are insoluble in water.
5. magnesium and lithium oxides, halides covalent is strong, can dissolve in organicsolvents such as ethanol.
6. magnesium ion and lithium ion hydration are strong.
No, lithium is more reactive than magnesium because it has a higher tendency to lose electrons. Magnesium reacts slowly with water, whereas lithium reacts vigorously with water, producing hydrogen gas.
The lightest common metals are lithium, beryllium, and magnesium. They are widely used in various industries due to their low density and high strength-to-weight ratio.
Magnesium has the strongest bonds among lithium, magnesium, and aluminum. This is because magnesium has more electrons available for metallic bonding compared to lithium and aluminum, leading to stronger metallic bonds.
Sodium is more reactive than lithium and magnesium but less reactive than potassium.
The most common plutonium isotope is plutonium 239.
50g of magnesium has more atoms because magnesium has a higher atomic mass compared to lithium.
Magnesium Sulfate: MgSO4 Lithium Bromite: LiBrO2
Magnesium and lithium are both metals with different properties and uses. Magnesium is lighter and more reactive than lithium. Magnesium is commonly used in alloys for making lightweight materials, while lithium is used in batteries for electronic devices.
No, lithium is more reactive than magnesium because it has a higher tendency to lose electrons. Magnesium reacts slowly with water, whereas lithium reacts vigorously with water, producing hydrogen gas.
The lightest common metals are lithium, beryllium, and magnesium. They are widely used in various industries due to their low density and high strength-to-weight ratio.
Magnesium has the strongest bonds among lithium, magnesium, and aluminum. This is because magnesium has more electrons available for metallic bonding compared to lithium and aluminum, leading to stronger metallic bonds.
Magnesium has a higher melting point.
MgCl2 and Li are the reactants.
Yes
No, magnesium cannot replace lithium in a single replacement reaction because lithium is more reactive than magnesium. In single replacement reactions, a more reactive element will displace a less reactive element from a compound, but this is not possible in this case due to the reactivity trend.
The common name for lithium nitrate is simply lithium nitrate.
Magnesium acetate and lithium carbonate are unlikely to react because they do not contain reactive elements that would readily form a new compound. Magnesium acetate is a magnesium salt of acetic acid, while lithium carbonate is a lithium salt of carbonic acid, and they are both stable compounds under normal conditions.