Complete and balance the molecular equation, including the phases, for the reaction of aqueous potassium sulfate, K,SO,, and aqueous strontium iodide, SrI,. From the balanced molecular equations, write the complete ionic and net ionic equations for the following: [latex]{\text{K}}_{2}{\text{C}}_{2}{\text{O}}_{4}\text{(}aq\text{)}+\text{Ba}{\text{(OH)}}_{2}\text{(}aq\text{)}\rightarrow 2\text{KOH(}aq\text{)}+{\text{BaC}}_{2}{\text{O}}_{2}\text{(}s\text{)}[/latex], [latex]{\text{Pb(NO}}_{3}{\text{)}}_{2}\text{(}aq\text{)}+{\text{H}}_{2}{\text{SO}}_{4}\text{(}aq\text{)}\rightarrow{\text{PbSO}}_{4}\text{(}s\text{)}+2{\text{HNO}}_{3}\text{(}aq\text{)}[/latex], [latex]{\text{CaCO}}_{3}\text{(}s\text{)}+{\text{H}}_{2}{\text{SO}}_{4}\text{(}aq\text{)}\rightarrow{\text{CaSO}}_{4}\text{(}s\text{)}+{\text{CO}}_{2}\text{(}g\text{)}+{\text{H}}_{2}\text{O(}l\text{)}[/latex], [latex]{\text{CaCO}}_{3}\text{(}s\text{)}\rightarrow\text{CaO(}s\text{)}+{\text{CO}}_{2}\text{(}g\text{)}[/latex], [latex]2{\text{C}}_{4}{\text{H}}_{10}\text{(}g\text{)}+13{\text{O}}_{2}\text{(}g\text{)}\rightarrow 8{\text{CO}}_{2}\text{(}g\text{)}+10{\text{H}}_{2}\text{O(}g\text{)}[/latex], [latex]{\text{MgC1}}_{2}\text{(}aq\text{)}+2\text{NaOH(}aq\text{)}\rightarrow\text{Mg}{\text{(OH)}}_{2}\text{(}s\text{)}+2\text{NaCl(}aq\text{)}[/latex], [latex]2{\text{H}}_{2}\text{O(}g\text{)}+2\text{Na(}s\text{)}\rightarrow 2\text{NaOH(}s\text{)}+{\text{H}}_{2}\text{(}g\text{)}[/latex], [latex]2{\text{KClO}}_{3}\text{(}s\text{)}\rightarrow 2\text{KCl(}s\text{)}+3{\text{O}}_{2}\text{(}g\text{)}[/latex], [latex]2\text{Ba}{\text{(}{\text{NO}}_{3}\text{)}}_{2}\text{(}s\text{)}\rightarrow 2\text{BaO(}s\text{)}+2{\text{N}}_{2}\text{(}g\text{)}+5{\text{O}}_{2}\text{(}g\text{)}[/latex], [latex]\begin{array}{l}2\text{Mg(}s\text{)}+{\text{O}}_{2}\text{(}g\text{)}\rightarrow 2\text{MgO(}s\text{)}\\ 4\text{Al(}s\text{)}+3{\text{O}}_{2}\text{(}g\text{)}\rightarrow 2{\text{Al}}_{2}{\text{O}}_{3}\text{(}g\text{)}\\ 4\text{Fe(}s\text{)}+3{\text{O}}_{2}\text{(}g\text{)}\rightarrow 2{\text{Fe}}_{2}{\text{O}}_{3}\text{(}s\text{)}\end{array}[/latex], [latex]4\text{HF(}aq\text{)}+{\text{SiO}}_{2}\text{(}s\text{)}\rightarrow{\text{SiF}}_{4}\text{(}g\text{)}+2{\text{H}}_{2}\text{O(}l\text{);}[/latex], complete ionic equation: [latex]2{\text{Na}}^{\text{+}}\text{(}aq\text{)}+2{\text{F}}^{\text{-}}\text{(}aq\text{)}+{\text{Ca}}^{\text{2+}}\text{(}aq\text{)}+2{\text{Cl}}^{\text{-}}\text{(}aq\text{)}\rightarrow\text{Ca}{\text{F}}_{2}\text{(}s\text{)}+2{\text{Na}}^{\text{+}}\text{(}aq\text{)}+2{\text{Cl}}^{\text{-}}\text{(}aq\text{),}[/latex] net ionic equation: [latex]2{\text{F}}^{\text{-}}\text{(}aq\text{)}+{\text{Ca}}^{\text{2+}}\text{(}aq\text{)}\rightarrow{\text{CaF}}_{2}\text{(}s\text{)}[/latex], [latex]\begin{array}{l}{}2{\text{K}}^{\text{+}}\text{(}aq\text{)}+{\text{C}}_{2}{\text{O}}_{4}{}^{\text{2-}}\text{(}aq\text{)}+{\text{Ba}}^{\text{2+}}\text{(}aq\text{)}+2{\text{OH}}^{\text{-}}\text{(}aq\text{)}\rightarrow 2{\text{K}}^{\text{+}}\text{(}aq\text{)}+2{\text{OH}}^{\text{-}}\text{(}aq\text{)}+{\text{BaC}}_{2}{\text{O}}_{4}\text{(}s\text{)}\text{(complete)}\\ {\text{Ba}}^{\text{2+}}\text{(}aq\text{)}+{\text{C}}_{2}{\text{O}}_{4}{}^{\text{2-}}\text{(}aq\text{)}\rightarrow{\text{BaC}}_{2}{\text{O}}_{4}\text{(}s\text{)}\text{(net)}\end{array}[/latex], [latex]\begin{array}{l}{\text{Pb}}^{\text{2+}}\text{(}aq\text{)}+2{\text{NO}}_{3}{}^{\text{-}}\text{(}aq\text{)}+2{\text{H}}^{+}\text{(}aq\text{)}+{\text{SO}}_{4}{}^{\text{2-}}\text{(}aq\text{)}\rightarrow{\text{PbSO}}_{4}\text{(}s\text{)}+2{\text{H}}^{\text{+}}\text{(}aq\text{)}+2{\text{NO}}_{3}{}^{\text{-}}\text{(}aq\text{)}\text{(complete)}\\ {\text{Pb}}^{\text{2+}}\text{(}aq\text{)}+{\text{SO}}_{4}{}^{\text{2-}}\text{(}aq\text{)}\rightarrow{\text{PbSO}}_{4}\text{(}s\text{)}\text{(net)}\end{array}[/latex], [latex]\begin{array}{l}{}{\text{CaCO}}_{3}\text{(}s\text{)}+2{\text{H}}^{\text{+}}\text{(}aq\text{)}+{\text{SO}}_{4}{}^{\text{2-}}\text{(}aq\text{)}\rightarrow{\text{CaSO}}_{4}\text{(}s\text{)}+{\text{CO}}_{2}\text{(}g\text{)}+{\text{H}}_{2}\text{O(}l\text{)}\text{(complete)}\\ {\text{CaCO}}_{3}\text{(}s\text{)}+2{\text{H}}^{\text{+}}\text{(}aq\text{)}+{\text{SO}}_{4}{}^{\text{2-}}\text{(}aq\text{)}\rightarrow{\text{CaSO}}_{4}\text{(}s\text{)}+{\text{CO}}_{2}\text{(}g\text{)}+{\text{H}}_{2}\text{O(}l\text{)}\text{(net)}\end{array}[/latex]. which of the following represents the net ionic equation for the reaction? Write the balanced molecular equation and net ionic equation for the reaction between silver(I) nitrate and potassium cyanide. Write the molecular equation and the net ionic equation for each of the following aqueous reactions. net ionic equation: SrSO, (s) BUY. When aqueous solutions of ________ are mixed, a precipitate forms. Aqueous iron(III) sulfate is added to aqueous potassium chromate. a) Barium nitrate and sodium sulfide. Enter the net ionic equation for the reaction that occurs when aqueous hydroiodic acid and aqueous strontium sulfide are mixed. E) Pb(NO3)2 (aq) + 2NaCl (aq) PbCl2 (aq) + 2NaNO3 (s), The spectator ions in the reaction between aqueous hydrochloric acid and aqueous calcium hydroxide are ________. Write a balanced chemical equation to represent the following chemical reaction. If hydrogen ions are produced, the substance is called an acid. Both compounds are white solids that can be dissolved in water to make clear, colorless solutions. b. Copper metal reacting with silver nitrate solution to make silver metal and copper(II) nitrate. Write balanced chemical, complete ionic, and net ionic equations for the reactions between the following substances, which produce a gas. D) dilution of 1.00 mL of 0.355 M K2SO4 to 1.00 L The two dissolved ionic compounds, NaOH and Na2CO3, can be represented as dissociated ions to yield the complete ionic equation: [latex]{\text{CO}}_{2}\text{(}aq\text{)}+2{\text{Na}}^{\text{+}}\text{(}aq\text{)}+2{\text{OH}}^{\text{-}}\text{(}aq\text{)}\rightarrow 2{\text{Na}}^{\text{+}}\text{(}aq\text{)}+{\text{CO}}_{3}{}^{\text{2-}}\text{(}aq\text{)}+{\text{H}}_{2}\text{O(}l\text{)}[/latex]. Solid calcium fluoride can also be prepared by the reaction of aqueous solutions of calcium chloride and sodium fluoride, yielding aqueous sodium chloride as the other product. B) SnCl2 (aq) + Cu (s) Sn (s) + CuCl2 (aq) B) 99 parts sample and 1 part diluent C) CaO (s) + H2O (l) Ca(OH)2 (s) %PDF-1.4 Write the net ionic equation for the reaction. /S Write a condensed equation as well as a net ionic equation for the reaction of aqueous silver nitrate with aqueous potassium chromate. E) mol solute/L solution. C) it reacts with water with great difficulty 2Na+(aq) + S2-(aq) + 2H+(aq) + 2Cl-(aq)2Na+(aq) + 2Cl-(aq) + H2S (g). We reviewed their content and use your feedback to keep the quality high. magnesium chloride + ammonium nitrate arrow magnesium nitrate + ammonium chloride. What is the difference between these types of equations? C) loss of electrons, gain of electrons B) ions 2 MnO4-(aq) + 10 Br-(aq) + 16 H+(aq) 2 Mn2+(aq) + 5 Br2(aq) + 8 H2O(l), Directions: Each set of lettered choices below refers to the numbered statements immediately following it. C) 1.75 Write the molecular equation, complete ionic equation, and net ionic equation for the reaction between sliver nitrate and mercury (II) chloride. All rights reserved. Be sure to include the water in the formula for strontium iodate monohydrate. Water vapor reacts with sodium metal to produce solid sodium hydroxide and hydrogen gas. Some molecular compounds also produce dissolved ions in water. Consider the reaction between sodium chloride (NaCl) and copper sulfate (CuSO4) in aqueous solution. Write the net ionic. Write the balanced chemical equation for the reaction between aqueous solutions of strontium nitrate and potassium sulfate, which forms the precipitate strontium sulfate. Write an equation for the reaction of solid silicon dioxide with hydrofluoric acid to yield gaseous silicon tetrafluoride and liquid water. Given the abundance of water on earth, it stands to reason that a great many chemical reactions take place in aqueous media. Write a balanced chemical equation to demonstrate the reaction between an aqueous solution of silver nitrate (AgNO_3) and an aqueous solution of magnesium chloride (MgCl_2). 6. (Express your answer as a chemical equation. E) 100.0 mL of 0.500 M solution of HCl, What are the respective concentrations (M) of Fe3+ and I- afforded by dissolving 0.200 mol FeI3 in water and diluting to 725 mL? Write the complete ionic equation for the reaction of aqueous lead(II) nitrate with aqueous potassium sulfate to form solid lead(II) sulfate and aqueous potassium nitrate. They remain dissolved in the filtrate solution. 1. Then write the net ionic equation for this reaction. D) 2HClO4 (aq) + CaCO3 (s) Ca(ClO4)2 (aq) + H2O (l) + CO2 (g) The balanced net ionic equation is ________. B) dissolving 46.7 g of K2SO4 in water and diluting to a total volume of 250.0 mL Write balanced formula equations for the following reactions: a. zinc(s) + iodine(g) rightarrow zinc iodide b. hydrogen peroxide(l) rightarrow oxygen(g) + water c. magnesium(s) + lead(IV) nitrate rightarrow lead(s) + magnesium nitrate(aq).
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