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Chapter 4: Q9E (page 215)

Aqueous hydrogen fluoride (hydrofluoric acid) is used to etch glass and to analyze minerals for their silicon content. Hydrogen fluoride will also react with sand (silicon dioxide).

(a) Write an equation of the reaction of solid silicon dioxide with hydrofluoric acid to yield gaseous silicon tetrafluoride and liquid water.

(b)The mineral fluorite (calcium fluoride) occurs extensively in Illinois. Solid calcium fluoride can also be prepared by the reaction of aqueous solution of calcium chloride and sodium fluoride, yielding aqueous sodium chloride as the other product. Write complete and net ionic equations for this reaction.

Short Answer

Expert verified
  1. \(Si{O_2}\left( s \right) + 4HF\left( {aq} \right) \to Si{F_4}\left( g \right) + 2{H_2}O\left( l \right).\)
  2. \(CaC{l_2}\left( {aq} \right) + 2NaF\left( {aq} \right) \to Ca{F_2}\left( s \right) + 2NaCl\left( {aq} \right)\) (Molecular ionic equation).

\(C{a^{2 + }}\left( {aq} \right) + 2C{l^ - }\left( {aq} \right) + 2N{a^ + }\left( {aq} \right) + 2{F^ - }\left( {aq} \right) \to Ca{F_2}\left( s \right) + 2N{a^ + }\left( {aq} \right) + 2C{l^ - }\left( {aq} \right)\)(Complete ionic equation).

\(C{a^{2 + }}\left( {aq} \right) + 2{F^ - }\left( {aq} \right) \to Ca{F_2}\left( s \right)\)(Net ionic equation).

Step by step solution

01

Formation of silicon tetrafluoride

Hydrogen fluoride, a strong acid reacts with silicon dioxide leading to silicon tetrafluoride.

The equation is as shownbelow:

\(Si{O_2}\left( s \right) + 4HF\left( {aq} \right) \to Si{F_4}\left( g \right) + 2{H_2}O\left( l \right).\)

02

Molecular ionic equation is used to give complete ionic and net ionic equations

The complete ionic equation gives the complete formulas of all the dissolved ions of the ionic compounds.

\(C{a^{2 + }}\left( {aq} \right) + 2C{l^ - }\left( {aq} \right) + 2N{a^ + }\left( {aq} \right) + 2{F^ - }\left( {aq} \right) \to Ca{F_2}\left( s \right) + 2N{a^ + }\left( {aq} \right) + 2C{l^ - }\left( {aq} \right).\)

The spectator ions, sodium and chloride ions on both sides of the above equation gets cancelled out, giving the net ionic equation.

\(C{a^{2 + }}\left( {aq} \right) + 2{F^ - }\left( {aq} \right) \to Ca{F_2}\left( s \right).\)

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Most popular questions from this chapter

Complete and balance each of the following oxidation-reduction reactions,such that it results in the highest possible oxidation state for the oxidized atoms.

(a) \(Al\left( s \right) + {F_2}\left( g \right) \to \)

(b) \(Al\left( s \right) + CuB{r_2}\left( {aq} \right) \to \) (single displacement)

(c) \({P_4}\left( s \right) + {O_2}\left( g \right) \to \)

(d) \(Ca\left( s \right) + {H_2}O\left( l \right) \to \) (products are a strong base and a diatomic gas)

Colourful fireworks often involve the decomposition of barium nitrate and potassium chlorate and the reaction of metals magnesium, aluminium, and iron with oxygen.

(a)Write the formulae of barium nitrate and potassium chlorate.

(b)The decomposition of solid potassium chlorate leads to the formation of solid potassium chloride and diatomic oxygen gas. Write an equation for the reaction.

(c) The decomposition of solid barium nitrate leads to the formation of solid barium oxide, diatomic nitrogen gas and diatomic oxygen gas. Write an equation for the reaction.

(d)Write separate equations for the reactions of the solid metals magnesium, aluminium and iron and oxygen gas to yield the corresponding metal oxides.(Assume the iron oxide contains \(F{e^{3 + }}\)ions.)

What is the limiting reactant when 1.50 g of lithium and 1.50 g of nitrogen combine to form lithium nitride, a component of advanced batteries, according to the following unbalanced equation?\(Li + {N_2} \to L{i_3}N\).

Identify the atoms that are oxidized and reduced, the change in the oxidation state for each, and the oxidizing and reducing agents in each of the following equations:

(a)\(Mg\left( s \right) + NiC{l_2}\left( {aq} \right) \to MgC{l_2}\left( {aq} \right) + Ni\left( s \right)\)

(b)\(PC{l_3}\left( l \right) + C{l_2}\left( g \right) \to PC{l_5}\left( s \right)\)

(c)\({C_2}{H_4}\left( g \right) + 3{O_2}\left( g \right) \to 2C{O_2}\left( g \right) + 2{H_2}O\left( g \right)\)

(d)\(Zn\left( s \right) + {H_2}S{O_4}\left( {aq} \right) \to ZnS{O_4}\left( {aq} \right) + {H_2}\left( g \right)\)

(e) \(2{K_2}{S_2}{O_3}\left( s \right) + {I_2}\left( s \right) \to {K_2}{S_4}{O_6}\left( s \right) + 2KI\left( s \right)\)

(f) \(3Cu\left( s \right) + 8HN{O_3}\left( {aq} \right) \to 3Cu{\left( {N{O_3}} \right)_2}\left( {aq} \right) + 2NO\left( g \right) + 4{H_2}O\left( l \right)\)

In a laboratory experiment, the reaction of 3.0 mol of\({H_2}\)with 2.0 mol of\({I_2}\)produced 1.0 mol of HI. Determine the theoretical yield in grams and the percent yield for this reaction.
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