Write chemical equations from the given word equations:
Magnesium + Oxygen gives Magnesium Oxide
Hydrogen + Oxygen gives Water
Methane + oxygen gives Carbon dioxide + Water
Answers
Answer:
A combination reaction (also known as a synthesis reaction) is a reaction where two or more elements or compounds (reactants) combine to form a single compound (product). Such reactions are represented by equations of the following form: X + Y → XY. The combination of two or more elements to form one compound is called combination reaction. | a) Between elements | C + O2 → CO2 | Carbon completely burnt in oxygen yields carbon dioxide |- | b) Between compounds | CaO + H2O → Ca(OH)2 | Calcium oxide (lime) combined with water gives calcium hydroxide (slaked lime) |- | c) Between elements and compounds | 2CO + O2 → 2CO2 | Oxygen combines with carbon monoxide, and carbon dioxide is formed. |}
There is no specific number of reactants in a combination reaction.
Combination reactions are usually exothermic because when the bond forms between the reactants, heat is released. For example, barium metal and fluorine gas will combine in a highly exothermic reaction to form the salt barium fluoride:
Ba + F2 → BaF2
Another example is magnesium oxide combining with carbon dioxide to produce magnesium carbonate.
MgO + CO2 → MgCO3
Another example is iron combining with sulfur to produce iron(II) sulfide.
Fe + S → FeS
When a combination reaction occurs between a metal and a non-metal the product is an ionic solid. An example could be lithium reacting with sulfur to give lithium sulfide. When magnesium burns in air, the atoms of the metal combine with the gas oxygen to produce magnesium oxide. This specific combination reaction produces the bright flame generated by flares.
Combination reactions can also occur in other situations when the two products do not have the same ionic charge. In such a situation, different quantities of each reactant must be used. To denote this in a chemical equation, a coefficient is added to one or more of the reactants so that the total ionic charge of each reactant is the same. For example, Iron (III) Oxide is formed by the following equation: {\displaystyle {\ce {4Fe + 3 O2 -> 2Fe2O3}}}{\displaystyle {\ce {4Fe + 3 O2 -> 2Fe2O3}}}. This is because in this case, Iron has a charge of 3+ while each Oxygen atom in {\displaystyle {\ce {O2}}}{\displaystyle {\ce {O2}}} has a charge of 2-. Oxygen Gas ({\displaystyle {\ce {O2}}}{\displaystyle {\ce {O2}}}) must be used instead of elemental oxygen ({\displaystyle {\ce {O}}}{\displaystyle {\ce {O}}}) because elemental oxygen is a free radical that is unstable and combines with other oxygen atoms to form {\displaystyle {\ce {O2}}}{\displaystyle {\ce {O2}}}.
Another example[check spelling] natural conditions. Likewise, the Hydrogen atoms should be in the form {\displaystyle {\ce {H2}}}{\displaystyle {\ce {H2}}} because {\displaystyle {\ce {H}}}{\displaystyle {\ce {H}}} is an unstable free radical not commonly found in nature; the chemical equation {\displaystyle {\ce {2H + O -> H2O}}}{\displaystyle {\ce {2H + O -> H2O}}} is also generally impossible under natural conditions.
Explanation:
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1.) Mg + O 2 → MgO
2.) 2H + O → H2O
3.) Ch4 + O → CO2 + H2O