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Chapter 8: Problem 13

Using Lewis symbols, diagram the reaction between magnesium and oxygen atoms to give the ionic substance \(\mathrm{MgO}\).

Short Answer

Expert verified
First, identify the valence electrons of Mg (2) and O (6). Draw their Lewis symbols with dots representing valence electrons. Show the transfer of two electrons from Mg to O using arrows, and draw the resulting ions with their new electron configurations as \(Mg^{2+}\) and \(O^{2-}\). Finally, write the formula for magnesium oxide as \(\mathrm{MgO}\).

Step by step solution

01

Identify the Valence Electrons

First, identify the number of valence electrons of each atom. Magnesium is in group 2 of the periodic table and has 2 valence electrons. Oxygen is in group 6 and has 6 valence electrons.
02

Draw the Lewis Symbols

Draw the Lewis symbols for magnesium and oxygen. Represent each valence electron as a single dot around the atomic symbol. For magnesium (Mg), place two dots on either side of the Mg symbol. For oxygen (O), arrange the six dots in pairs around the O symbol. Mg: O: •• •• Mg O ••
03

Show Electron Transfer

In the reaction, magnesium will lose two electrons to achieve a stable electron configuration, while oxygen will gain two electrons. Show this electron transfer by drawing arrows representing the transfer of the two electrons from Mg to O: Mg: O: ••→ •• Mg → O ••
04

Draw the Resulting Ions

After the electron transfer, draw the resulting ions with their new electron configurations. Magnesium will have lost its two valence electrons, while oxygen will have gained two more electrons, resulting in eight electrons in its outer shell. Mg: O: (••) Mg²⁺ O²⁻ (••)
05

Write the Final Formula

Write the final formula for magnesium oxide as \(\mathrm{MgO}\). The positive and negative charges of the ions cancel out, resulting in a neutral compound.

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Most popular questions from this chapter

(a) Using average bond enthalpies, predict which of the following reactions will be most exothermic: (i) \(C(g)+2 \mathrm{~F}_{2}(g) \longrightarrow \mathrm{CF}_{4}(g)\) (ii) \(\mathrm{CO}(g)+3 \mathrm{~F}_{2} \longrightarrow \mathrm{CF}_{4}(g)+\mathrm{OF}_{2}(g)\) (iii) \(\mathrm{CO}_{2}(g)+4 \mathrm{~F}_{2} \longrightarrow \mathrm{CF}_{4}(g)+2 \mathrm{OF}_{2}(g)\) (b) Explain the trend, if any, that exists between reaction exothermicity and the extent to which the carbon atom is bonded to oxygen.

(a) Use bond enthalpies to estimate the enthalpy change for the reaction of hydrogen with ethene: $$\mathrm{H}_{2}(g)+\mathrm{C}_{2} \mathrm{H}_{4}(g) \longrightarrow \mathrm{C}_{2} \mathrm{H}_{6}(g)$$ (b) Calculate the standard enthalpy change for this reaction, using heats of formation. Why does this value differ from that calculated in (a)?

By referring only to the periodic table, select (a) the most electronegative element in group \(6 \mathrm{~A} ;\) (b) the least electronegative element in the group \(\mathrm{Al}, \mathrm{Si}, \mathrm{P} ;\) (c) the most electronegative element in the group Ga, \(\mathrm{P}, \mathrm{Cl}, \mathrm{Na}\); (d) the element in the group \(\mathrm{K}, \mathrm{C}, \mathrm{Zn}, \mathrm{F}\), that is most likely to form an ionic compound with Ba.

Consider the nitryl cation, \(\mathrm{NO}_{2}^{+} .\) (a) Write one or more appropriate Lewis structures for this ion. (b) Are resonance structures needed to describe the structure? (c) With what familiar molecule is it isoelectronic?

Calculate the formal charge on the indicated atom in each of the following molecules or ions: (a) the central oxygen atom in \(\mathrm{O}_{3},(\mathrm{~b})\) phosphorus in \(\mathrm{PF}_{6}^{-}\), (c) nitrogen in \(\mathrm{NO}_{2}\), (d) iodine in \(\mathrm{ICl}_{3}\), (e) chlorine in \(\mathrm{HClO}_{4}\) (hydrogen is bonded to \(\mathrm{O}\) ).
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