The equation for magnesium plus fluorine is: Mg + F2 → MgF2. This reaction results in the formation of magnesium fluoride.
The word equation "magnesium + fluorine → magnesium fluoride" translates to the balanced chemical equation 2Mg + F2 → 2MgF2. The coefficient for fluorine is 2, and the symbol remains F.
This word equation is incorrect because it does not follow the law of conservation of mass. The equation should be: calcium chloride plus magnesium sulfate yields barium sulfate plus magnesium chloride.
Zinc oxide reacts with metallic magnesium to produce magnesium oxide and metallic zinc.
Mg + 2HCl --> MgCl2 + H2 Magnesium plus hydrochloric acid equals magnesium chloride plus hydrogen gas.
The chemical equation for magnesium reacting with iodine is: Mg + I2 -> MgI2
The word equation "magnesium + fluorine → magnesium fluoride" translates to the balanced chemical equation 2Mg + F2 → 2MgF2. The coefficient for fluorine is 2, and the symbol remains F.
This equation is:Mg + H2SO4 = MgSO4 + H2
This word equation is incorrect because it does not follow the law of conservation of mass. The equation should be: calcium chloride plus magnesium sulfate yields barium sulfate plus magnesium chloride.
B + 3F [arrow] BF3 Boron and fluorine yield boron (III) fluoride.
Zinc oxide reacts with metallic magnesium to produce magnesium oxide and metallic zinc.
One: The formula for magnesium fluoride is MgF2. Since each mole of fluorine molecules, which have the formula F2, contains two moles of fluorine atoms, one mole of each is the right ratio.
Magnesium and fluorine will produce magnesium fluoride by ionic bonding.
The word equation for magnesium oxide plus hydrochloric acid is: magnesium oxide + hydrochloric acid → magnesium chloride + water.
2NF3 --> N2 + 3F2
Mg + 2HCl --> MgCl2 + H2 Magnesium plus hydrochloric acid equals magnesium chloride plus hydrogen gas.
The chemical equation for magnesium reacting with iodine is: Mg + I2 -> MgI2
Mg + 2HCl --> MgCl2 + H2