THE ULTIMATE AP EQUATIONS SHEET! Nitric acid is reacted with lithium sulfite solution to make… Sodium is heated in the presence of elemental sulfur to create… Aluminum nitrite, used to coat military knives, breaks apart when heated strongly. Sodium phosphate solution reacts with aqueous magnesium nitrate to make…. Elemental aluminum reacts with oxygen to create… Ammonia gas reacts with chloric acid to create…. Carbon dioxide gas reacts with solid aluminum hydroxide to create…. Sulfur dioxide gas reacts with aqueous strontium hydroxide solution to make….. Phosphoric acid reacts with calcium hydroxide solution to produce…. Sodium sulfide solution reacts violently with concentrated nitric acid to produce…. Excess sodium cyanide solution is added to a solution of silver nitrate. An excess of nitric acid solution is added to a solution of tetraamminecopper (II) sulfate. Solid aluminum oxide is added to a solution of sodium hydroxide. Concentrated ammonia solution is added to a solution of zinc iodide. Excess concentrated ammonia solution is added to a suspension of silver chloride. Excess concentrated potassium hydroxide solution is added to a precipitate of zinc hydroxide. Excess concentrated sodium hydroxide solution is added to a precipitate of aluminum hydroxide. A solution of ammonium thiocyanate is added to a solution of iron (III) chloride. A concentrated solution of ammonia is added to a suspension of zinc hydroxide. Excess hydrochloric acid is added to a solution of diammine silver (I) nitrate. A stream of chlorine gas is passed through a solution of cold, dilute sodium hydroxide. A solution of iron (II) nitrate is exposed to air for an extended period of time. A concentrated solution of hydrochloric acid is added to solid potassium permanganate. A solution of potassium dichromate is added to an acidified solution of iron (II) chloride. A solution of potassium iodide is electrolyzed. A concentrated solution of hydrochloric acid is added to powdered manganese dioxide and gently heated. Acidified solutions of potassium permanganate and sodium oxalate are mixed. A strip of copper is immersed in dilute nitric acid. A piece of copper is placed into concentrated nitric acid. A piece of cooper is added to hot, concentrated, sulfuric acid. Potassium permanganate solution is added to an acidic solution of hydrogen peroxide. A strip of silver is immersed in dilute nitric acid. A solution of Iron (II) nitrate is added to a basic solution of hydrogen peroxide. A solution of tin (II) chloride is added to an acidic solution of potassium permanganate. Solid sodium dichromate is added to an acidified solution of sodium iodide. Solutions of potassium iodide and potassium iodate are mixed in an acidic solution. Hydrogen peroxide is added to an acidified solution of sodium bromide. Solutions of tin (II) chloride and iron (III) chloride are mixed. Hot, concentrated sulfuric acid is added to a piece of copper. A solution of sodium bromide is added to an acidified solution of potassium bromate. Hydrogen gas is passed over hot iron (II) oxide powder. Hydrogen phosphide (phosphine) gas is added to boron trichloride gas. Hexane is combusted in air. Boron trifluoride gas is added to ammonia gas. Sulfur trioxide gas is bubbled into a solution of sodium hydroxide. Solid aluminum hydroxide is added to a concentrated solution of potassium hydroxide. Excess concentrated hydrochloric acid is added to a 1.0M solution of cobalt (II) chloride. Acidified solutions of potassium permanganate and iron (II) nitrate are mixed together. Acidified solutions of potassium dichromate and potassium chloride are mixed together. Aluminum metal is added to a basic solution of potassium permanganate. Basic solutions of potassium permanganate and sodium sulfide are added toDilute sulfuric acid is added to a solution of barium acetate. Solutions of sodium phosphate and calcium chloride are mixed. Hydrogen sulfide gas is bubbled through a solution of silver nitrate. Manganese (II) nitrate solution is mixed with sodium hydroxide solution. Solutions of zinc sulfate and sodium phosphate are mixed. Solutions of silver nitrate and sodium chromate are mixed. Dilute solutions of lithium hydroxide and hydrobromic acid are mixed. Ammonia gas is added to a dilute solution of acetic acid. A solution of sulfuric acid is added to a solution of strontium hydroxide. Calcium metal is added to a concentrated solution of hydrochloric acid. Liquid bromine is added to a solution of potassium iodide. Magnesium turnings are added to a solution of iron (III) chloride. Small chunks of solid sodium are added to excess water. Zinc filings are added to concentrated hydrochloric acid. Calcium metal is heated strongly in the presence of oxygen. Excess chlorine gas is passed over hot iron filings. A piece of lithium is dropped into a container of nitrogen gas. Hydrogen gas and chlorine gas are heated gently in a closed container. A strip of magnesium metal is heated strongly in pure nitrogen gas. Solid calcium oxide is exposed to a stream of carbon dioxide gas. A mixture of solid calcium oxide and tetraphosphorus decaoxide is heated. Sulfur trioxide gas is added to excess water. Ammonia gas and carbon dioxide are bubbled into excess water. Solid magnesium carbonate is heated. A sample of sulfurous acid is heated gently. A sample of solid ammonium carbonate is heated. Aqueous ammonium hydroxide decomposes. Solid calcium sulfite is heated strongly. Solid potassium chlorate is heated in the presence of a manganese (IV) oxide catalyst. A solution of hydrogen peroxide is heated. Propanol is burned completely in air. Octane is combusted in a car engine. Ethanol is accidentally lit on fire from a bottle. Pentanol is burned in the presence of oxygen. Cyclohexane is burned. Solid potassium oxide is added to excess water. Solid sodium oxide is added to excess distilled water. Carbon dioxide is bubbled through a solution of concentrated sodium hydroxide. Solid barium oxide is added to excess distilled water. Carbon dioxide is passed over hot, solid, sodium oxide. Dilute nitric acid is added to crystals of pure calcium oxide. Solid dinitrogen pentoxide is added to excess water. Sulfur dioxide gas is bubbled into an excess of calcium hydroxide solution. Sulfur dioxide gas is passed over solid calcium oxide. Sulfur dioxide gas is bubbled into excess distilled water. Sulfur trioxide gas is bubbled through a dilute solution of potassium hydroxide. Dilute sulfuric acid is reacted with excess sodium hydroxide solution. Ammonia gas is bubbled through a solution of phosphoric acid. A solution of sulfuric acid is added to a solution of lithium hydroxide until the same number of moles of each compound has been added. Equal volumes of .1M solutions of phosphoric acid and potassium hydroxide are mixed. Solutions of ammonium hydroxide and hydrochloric acid are mixed. Sodium hydroxide pellets are added to a solution of hydrobromic acid. Calcium carbonate pellets react with dilute hydrochloric acid in solution Aqueous solutions of calcium nitrate and rubidium chloride are mixed together Aqueous solutions of potassium chromate and silver nitrate react. Sodium acetate undergoes hydrolysis when placed in water. Aqueous ammonium chloride undergoes hydrolysis when placed in water. Aqueous potassium fluoride undergoes hydrolysis in distilled water. Sodium chloride crystals and water are mixed together and undergo hydrolysis. Ammonium fluoride and water are placed together and undergo hydrolysis. Solid sodium sulfite is added to aqueous hydrochloric acid. Potassium carbonate pellets are added to concentrated nitric acid. Ammonium chloride solution is added to aqueous sodium hydroxide. Iron (II) sulfide crystals are added to hydrochloric acid in solution. Aqueous sodium sulfate is added to concentrated barium chloride solution. Aqueous silver chlorate is added to a solution of ammonium chloride. Potassium nitrate solution is added to a solution of plumbous acetate. Mercurous nitrate solution is combined with a solution of lithium iodide. Aluminum chloride solution is added to solid calcium hydroxide. Potassium phosphate solution is added to a solution of magnesium bromide. Sodium hydroxide pellets are added to a solution of phosphoric acid until there are equal numbers of moles of both. Aluminum chloride solution and aqueous silver nitrate create… Stannic carbonate and heat create…. Sodium metal and aluminum chloride solution make…. Mercurous chlorate solution reacts with potassium sulfate solution to create… Diphosphorous pentoxide powder is added to excess sodium hydroxide solution to make… Aqueous ammonium sulfide reacts with an excess solution of lithium hydroxide to make… Aqueous acetic acid reacts with an excess of lithium sulfite solution to make…. Phosphoric acid solution can react with potassium oxide pellets to create…. Ammonium bromide solution is added to calcium oxide powder to make…. Barium Chlorate, with heat, makes… Dinitrogen trioxide drops are added to lead (II) oxide powder to formulate… Solid diphosphorous pentoxide and lithium oxide powder can make…. Sulfur dioxide gas reacts with solid aluminum oxide to produce…. Sodium carbonate, decomposing, creates…. Ferric hydroxide, with heat, produces… Iron plus nitric acid, creates… Silver nitrate solution reacts with aqueous sodium chloride to produce… Magnesium oxide reacts with excess water to form… Magnesium reacts with copper (II) chloride solution to make… Calcium hydroxide, with heat, makes… Iron, placed into a solution of magnesium nitrate, produces… Potassium chlorate, with heat, yields… Sulfur trioxide gas, with excess water, makes… Cellulose (C6H10O5), or wood, burns to create… Hydrochloric acid neutralizes aqueous sodium hydroxide to make… Ferric oxide powder and dinitrogen trioxide drops create… Acetic acid is added to sodium hydroxide solution to form…. Diiodine monoxide gas bubbled into excess water creates…. Perchloric acid decomposes into…. Chloric acid breaks into…. Diiodine pentoxide powder added to excess water makes…. Plumbous oxide pellets mixed with dinitrogen trioxide drops react to make…. Phosphoric acid, with heat, breaks into…. Aluminum oxide and excess water can create…. Potassium, with excess water, makes… Mercuric oxide, warmed, creates… Aluminum chlorate, heated, makes… Calcium carbonate, decomposing, creates… Diarsenic pentoxide pellets added to excess distilled water will make…. Bromine liquid, added to a solution of chromic iodide, creates… Calcium, with excess water, makes… Cupric oxide, with heat, creates… Dinitrogen trioxide drops are placed into excess distilled water…. Octane (C8H18) burns in your car engine to produce… Perfluoric acid, when strongly heated, forms….. Zinc, plus nitrogen gas, creates… Dinitrogen pentoxide drops react with solid magnesium oxide to become…. Acetone (C3H6O) burning produces… Lead (II) nitrate solution reacts with aqueous potassium iodide to make… Aqueous sodium nitrate reacts with lithium chloride solution to produce… Nitrous acid, if unstable, breaks apart into…. Sodium and aqueous aluminum iodide make…. Ammonium sulfate solution reacts with strontium acetate to produce… Lithium chromate solution reacts with aqueous titanium (IV) chlorate to create… Copper (II) chloride in water, with sodium hydroxide solution, makes… Solid aluminum nitrate reacts with aqueous calcium hydroxide to produce…. Solid sodium hydroxide, with heat, yields… Magnesium reacts with hydrobromic acid to make…… Calcium oxide pellets with excess water produce… Sodium chlorate, with heat, yields… Nickel (III) carbonate, gently heated, creates…. Liquid dinitrogen pentoxide and solid sodium oxide will create…. Sulfur dioxide gas reacts with aqueous potassium hydroxide and makes… Magnesium hydroxide, with heat, forms… Sodium hydroxide pellets and zinc nitrate solution make…. Lead (IV) chlorate with heat produces…. Potassium sulfite powder reacts with aqueous cupric nitrate to make… Cobalt (III) hydroxide solution, with nitric acid, creates... Lithium sulfide crystals are added to a solution of sulfuric acid to create… Carbon dioxide is reacted with aqueous calcium hydroxide to create… Ammonia gas is bubbled into concentrated sulfuric acid to make….