Predicting Ionic Solubility Precipitation Formation.

Slides:

Advertisements

Similar presentations

Double Replacement Rxn

Advertisements

Predicting the Products of Double Replacement Reactions

TYPES OF CHEMICAL REACTIONS, CONTINUED. AB + CD AD + CB DOUBLE REPLACEMENT Ions in two compounds change partners Cation of one compound combines with.

Precipitation Reactions Graphic: Wikimedia Commons User Tubifex.

Precipitation Reactions Graphic: Wikimedia Commons User Tubifex.

What do you do when you find a dead chemist?. You BARIUM!

Solutions and Solubility

Net Ionic Equations An Application of Double Replacement Reactions.

Notes on Total and Net Ionic Equations. Ionic Compounds (Metal and Nonmetal) (Cation and Anion) If soluble these compounds will DISSOLVE and DISSOCIATE.

SCH 3U1 1. Solubility of Ionic Compounds 2 All solutes will have some solubility in water. “Insoluble” substances simply have extremely low solubility.

1 Reactions in Aqueous Solutions Chapter 7. 2 Sodium Reacting with Water.

Solubility Rules.

Solubility Rules and Precipitation Reactions. Not all ionic compounds dissolve! Instead of doing experiments all the time to see which ones will dissolve,

Precipitation Reactions. Double Replacement Reactions The ions of two compounds exchange places in an aqueous solution to form two new compounds. AX +

Objectives To learn more about some of the results of chemical reactions To learn to predict the solid that forms in a precipitation reaction To learn.

 The ability to dissolve or break down into its component ions in a liquid  Example:  NaCl is soluble  Completely dissolves in water  AgCl is insoluble.

Double Displacement Reactions

Chapter 9 Review 1.AgNO 3 + H 2 SO 4  Ag 2 SO 4 +HNO 3 What is the ratio of coefficients: 2 : 1 : 1 : 2 Is there a precipitate formed? yes. Ag 2 SO 4,

Net Ionic Equations Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Net Ionic Equations.

Unit 2 - Chemical Reactions. Double displacement occurs between ions in aqueous solution. A reaction will occur when a pair of ions come together to produce.

Aqueous Solutions. Soluble and Insoluble Soluble generally means that more than 1 g of solute will dissolve in 100 mL of water at room temperature. Insoluble.

Precipitates and Solubility

Chemistry 101 : Chap. 4 Aqueous Reactions and Solution Stoichiometry (1) General Properties of Aqueous Solutions (2) Precipitation Reactions (3) Acid-Base.

Chapter 11 Chemical Reactions 11.3 Reactions in Aqueous Solution

Double Displacement 2 compounds are reacted together and the first part of each compound will switch places general equation : WX + YZ  WZ + YX.

IIIIIIIVV Ch. 11 – Chemical Reactions IV. Predicting Products.

 DO NOW:  1. Watch the following video  2. Write your observations  3. Predict the products of AgNO 3 and NaCl.

Reactions in Aqueous Solution

Soluble or Insoluble: General Solubility Guidelines Many factors affect solubility so predicting solubility is neither straightforward nor simple. The.

Ch 18 Notes II Precipitation Reactions. Solubility Rules The solubility rules will tell you if a compound will be soluble in water. Note, this does not.

11.3 REACTIONS IN AQUEOUS SOLUTIONS. Earth’s surface is 70% water….

Chapter 6: Chemical Reactions.  Predict and write equations for precipitation reactions.  Write molecular, complete ionic, and net ionic equations.

 Determine the type of reaction and predict the products: NaOH  Li + Br 2  C 2 H 4 + O 2 

Solubility and Trends of Chemical Compounds By: Scott Shafiei and Ashwin Ariyapadi.

2NaBr(aq) + Pb(OH)2(aq)  PbBr2(s) + 2NaOH(aq)

Solubility Rules. The terms soluble and insoluble are relative terms. soluble insoluble solute Solubility: the maximum amount of solute needed to make.

Reactions in Aqueous Solution Objectives: 1. Write and balance net ionic equations 2. Use solubility rules to predict the precipitate formed in double.

Chapter 11 – Chemical Reactions There are many types of chemical reactions. We will study 5 of these. By being able to identify the type of chemical reaction.

Rules for Writing Net Ionic Equations. 1.Split up the ionic compounds into their respective ions. 1.Combine a cation with an anion from the ions in solution.

Chemical Reactions Chemistry. All Chemical Reactions have two parts: 1.Reactants = the substances you start with 2.Products = the substances you end up.

Predicting solubility. Using the table of solubilities we can now predict which of the products of a double replacement reaction will be insoluble (form.

Net Ionic Equations An Application of Double Replacement Reactions.

Chemical Reactions Combination Reactions, Single Replacement Reactions, Combustion Reactions, Decomposition Reactions, Double Displacement Reactions,

Aqueous Reactions and Solution Stoichiometry

Aqueous Solutions.

Precipitation Reactions

Warm Up Review Classify the type of reaction 1.AgNO 3 + NaCl  AgCl + NaNO PbO 2  2 PbO + O Al + 3 CuSO 4  Al 2 (SO 4 ) Cu Predict.

Ch (Net Ionic Equations)

Unit 7 Reactions in Solution Upon completion of this unit, you should be able to do the following: Describe the driving forces for a chemical reaction.

Net ionic equations Na + Al 3+ S 2– 2Ca 2+ PO 4 3– 3Cl –

Chemical Equations Review CH 4 + 2O 2 CO 2 + 2H 2 O “coefficients”“subscripts” coefficients can be changed to achieve mass balance but subscripts are never.

Net Ionic Equations Continued!

Double Displacement Reactions

CH 8 Solubility Rules & Net Ionic Equations. Chemical Reactions Many chemical reactions take place in solution. This means that the ionic compounds are.

11.3 Reactions in Aqueous Solution 1 > Chapter 11 Chemical Reactions 11.1 Describing Chemical Reactions 11.2 Types of Chemical Reactions 11.3 Reactions.

Pick up a Packet and write down the following Essential Question: How are precipitation reactions written and how is a compound determined to be soluble.

Precipitation Reactions (Reactions that form a precipitate)

Precipitation Reactions & Solubility Rules Thursday, February 18 th, 2016.

Chemical Equations & Reactions Chapter 8 Lesson 3.

Solubility Rules and Precipitation Reactions

Reactionsin solutions. Precipitation reactions  When solutions of certain ionic compounds are mixed and the ions come in contact with one another, the.

Precipitation Reactions

Solubility Rules and Precipitation Reactions

Solubility Rules SOLUBILITY RULES Rule #

Solubility Rules and Precipitation Reactions

Solution Chemistry solution homogeneous mix of two or more substances

Clicker #1 When lead(II) nitrate and potassium iodide are mixed, what precipitate will form? Pb(NO3)2(aq) + KI(aq) → A) KNO3 B) KI C) Pb(NO3)2 D) PbI2.

Chemical Reactions Unit

Solubility Rules and Net Ionic Equations

Solubility and Precipitation Rules

Presentation transcript:

Predicting Ionic Solubility Precipitation Formation

Predicting Ionic Solubility Most Ionic compounds (Salts) are soluble in water, but the degree of solubility is different for different salts. Salts can be described in one of the following categories: Soluble Partly (or Sparingly) Soluble Insoluble

Predicting Ionic Solubility A soluble salt can be defined in 2 ways:  Qualitatively: Soluble salts tend to dissolve in aqueous solution in almost unlimited amounts.  Quantitatively : More than 1 g of the salt dissolves in 100 mL of solution. or More than 0.1 mole of the salt will dissolve in 1 L of solution.

Predicting Ionic Solubility A partly soluble salt can be defined in 2 ways:  Qualitatively: Partly soluble salts tend to dissolve in aqueous solution but in limited amounts.  Quantitatively : Between 1 g and 0.1g of the salt dissolves in 100 mL of solution. Between 0.1mole and 0.01 mole of the salt will dissolve in 1 L of solution.

Predicting Ionic Solubility An insoluble salt can be defined in 2 ways:  Qualitatively: Insoluble salts do not dissolve in aqueous solution in any amount.  Quantitatively : Less than 0.1g of the salt dissolves in 100 mL of solution. Less than 0.01 mole of the salt will dissolve in 1 L of solution.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: - Ca 2+ and CO Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists:  if the combination of Ca 2+ and CO 3 2- forms a precipitate, the chart will indicate it is insoluble or has low solubility.  if the combination of Ca 2+ and CO 3 2- doesn’t form a precipitate, the chart will indicate it is soluble.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: 2. Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists:  if the combination of Ca 2+ and CO 3 2- forms a precipitate, the chart will indicate it is insoluble or has low solubility.  if the combination of Ca 2+ and CO 3 2- doesn’t form a precipitate, the chart will indicate it is soluble.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: - Ca 2+ and CO Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists:  if the combination of Ca 2+ and CO 3 2- forms a precipitate, the chart will indicate it is insoluble or has low solubility.  if the combination of Ca 2+ and CO 3 2- doesn’t form a precipitate, the chart will indicate it is soluble.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: - Ca 2+ and CO Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists:  if the combination of Ca 2+ and CO 3 2- forms a precipitate, the chart will indicate it is insoluble or has low solubility.  if the combination of Ca 2+ and CO 3 2- doesn’t form a precipitate, the chart will indicate it is soluble.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: - Ca 2+ and CO Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists:  if the combination of Ca 2+ and CO 3 2- forms a precipitate, the chart will indicate it is insoluble or has low solubility.  if the combination of Ca 2+ and CO 3 2- doesn’t form a precipitate, the chart will indicate it is soluble.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: - Ca 2+ and CO Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists: is the combination of Ca 2+ and CO 3 2- in the soluble group? is the combination of Ca 2+ and CO 3 2- in the insoluble group?  if the combination of Ca 2+ and CO 3 2- doesn’t form a precipitate, the chart will indicate it is soluble.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: - Ca 2+ and CO Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists: is the combination of Ca 2+ and CO 3 2- in the soluble group? NO is the combination of Ca 2+ and CO 3 2- in the insoluble group?  if the combination of Ca 2+ and CO 3 2- doesn’t form a precipitate, the chart will indicate it is soluble.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: - Ca 2+ and CO Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists: is the combination of Ca 2+ and CO 3 2- in the soluble group? is the combination of Ca 2+ and CO 3 2- in the insoluble group?  if the combination of Ca 2+ and CO 3 2- doesn’t form a precipitate, the chart will indicate it is soluble.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: - Ca 2+ and CO Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists: is the combination of Ca 2+ and CO 3 2- in the soluble group? is the combination of Ca 2+ and CO 3 2- in the insoluble group? YES  if the combination of Ca 2+ and CO 3 2- doesn’t form a precipitate, the chart will indicate it is soluble.

Predicting Solubility - Using the Solubility Chart Using the Solubility Chart, a guided example. Example: Is Calcium carbonate soluble or insoluble? 1.Determine the ions present in this compound: - Ca 2+ and CO Look up the anion on the Solubility chart. (in this case CO 3 2- ) 3.Look for the cation (in this case Ca 2+ ) in the two lists: is the combination of Ca 2+ and CO 3 2- in the soluble group? is the combination of Ca 2+ and CO 3 2- in the insoluble group?  The combination of Ca 2+ and CO 3 2- forms a precipitate, the chart indicates it has Low Solubility

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 CuCl 2 KBr(NH 4 ) 2 CO 3 Fe(NO 3 ) 3 Ca(OH) 2 NH 4 CH 3 COOPb(NO 3 ) 4 Ca 3 (PO 4 ) 2 CuCl KCH 3 COOPbCO 3 BaSO 4 AgOH Ag 2 SO 4 Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 KBr(NH 4 ) 2 CO 3 Fe(NO 3 ) 3 Ca(OH) 2 NH 4 CH 3 COOPb(NO 3 ) 4 Ca 3 (PO 4 ) 2 CuCl KCH 3 COOPbCO 3 BaSO 4 AgOH Ag 2 SO 4 Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 KBr soluble (NH 4 ) 2 CO 3 Fe(NO 3 ) 3 Ca(OH) 2 NH 4 CH 3 COOPb(NO 3 ) 4 Ca 3 (PO 4 ) 2 CuCl KCH 3 COOPbCO 3 BaSO 4 AgOH Ag 2 SO 4 Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 KBr soluble (NH 4 ) 2 CO 3 Fe(NO 3 ) 3 soluble Ca(OH) 2 NH 4 CH 3 COOPb(NO 3 ) 4 Ca 3 (PO 4 ) 2 CuCl KCH 3 COOPbCO 3 BaSO 4 AgOH Ag 2 SO 4 Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 KBr soluble (NH 4 ) 2 CO 3 Fe(NO 3 ) 3 soluble Ca(OH) 2 NH 4 CH 3 COO soluble Pb(NO 3 ) 4 Ca 3 (PO 4 ) 2 CuCl KCH 3 COOPbCO 3 BaSO 4 AgOH Ag 2 SO 4 Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 KBr soluble (NH 4 ) 2 CO 3 Fe(NO 3 ) 3 soluble Ca(OH) 2 NH 4 CH 3 COO soluble Pb(NO 3 ) 4 Ca 3 (PO 4 ) 2 insoluble CuCl KCH 3 COOPbCO 3 BaSO 4 AgOH Ag 2 SO 4 Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 KBr soluble (NH 4 ) 2 CO 3 Fe(NO 3 ) 3 soluble Ca(OH) 2 NH 4 CH 3 COO soluble Pb(NO 3 ) 4 Ca 3 (PO 4 ) 2 insoluble CuCl KCH 3 COO soluble PbCO 3 BaSO 4 AgOH Ag 2 SO 4 Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 KBr soluble (NH 4 ) 2 CO 3 Fe(NO 3 ) 3 soluble Ca(OH) 2 NH 4 CH 3 COO soluble Pb(NO 3 ) 4 Ca 3 (PO 4 ) 2 insoluble CuCl KCH 3 COO soluble PbCO 3 BaSO 4 insoluble AgOH Ag 2 SO 4 Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 KBr soluble (NH 4 ) 2 CO 3 Fe(NO 3 ) 3 soluble Ca(OH) 2 NH 4 CH 3 COO soluble Pb(NO 3 ) 4 Ca 3 (PO 4 ) 2 insoluble CuCl KCH 3 COO soluble PbCO 3 BaSO 4 insoluble AgOH Ag 2 SO 4 insoluble Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 soluble KBr soluble (NH 4 ) 2 CO 3 Fe(NO 3 ) 3 soluble Ca(OH) 2 NH 4 CH 3 COO soluble Pb(NO 3 ) 4 Ca 3 (PO 4 ) 2 insoluble CuCl KCH 3 COO soluble PbCO 3 BaSO 4 insoluble AgOH Ag 2 SO 4 insoluble Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 soluble KBr soluble (NH 4 ) 2 CO 3 soluble Fe(NO 3 ) 3 soluble Ca(OH) 2 NH 4 CH 3 COO soluble Pb(NO 3 ) 4 Ca 3 (PO 4 ) 2 insoluble CuCl KCH 3 COO soluble PbCO 3 BaSO 4 insoluble AgOH Ag 2 SO 4 insoluble Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 soluble KBr soluble (NH 4 ) 2 CO 3 soluble Fe(NO 3 ) 3 soluble Ca(OH) 2 insoluble NH 4 CH 3 COO soluble Pb(NO 3 ) 4 Ca 3 (PO 4 ) 2 insoluble CuCl KCH 3 COO soluble PbCO 3 BaSO 4 insoluble AgOH Ag 2 SO 4 insoluble Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 soluble KBr soluble (NH 4 ) 2 CO 3 soluble Fe(NO 3 ) 3 soluble Ca(OH) 2 insoluble NH 4 CH 3 COO soluble Pb(NO 3 ) 4 soluble Ca 3 (PO 4 ) 2 insoluble CuCl KCH 3 COO soluble PbCO 3 BaSO 4 insoluble AgOH Ag 2 SO 4 insoluble Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 soluble KBr soluble (NH 4 ) 2 CO 3 soluble Fe(NO 3 ) 3 soluble Ca(OH) 2 insoluble NH 4 CH 3 COO soluble Pb(NO 3 ) 4 soluble Ca 3 (PO 4 ) 2 insoluble CuCl insoluble KCH 3 COO soluble PbCO 3 BaSO 4 insoluble AgOH Ag 2 SO 4 insoluble Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 soluble KBr soluble (NH 4 ) 2 CO 3 soluble Fe(NO 3 ) 3 soluble Ca(OH) 2 insoluble NH 4 CH 3 COO soluble Pb(NO 3 ) 4 soluble Ca 3 (PO 4 ) 2 insoluble CuCl insoluble KCH 3 COO soluble PbCO 3 insoluble BaSO 4 insoluble AgOH Ag 2 SO 4 insoluble Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 soluble KBr soluble (NH 4 ) 2 CO 3 soluble Fe(NO 3 ) 3 soluble Ca(OH) 2 insoluble NH 4 CH 3 COO soluble Pb(NO 3 ) 4 soluble Ca 3 (PO 4 ) 2 insoluble CuCl insoluble KCH 3 COO soluble PbCO 3 insoluble BaSO 4 insoluble AgOH insoluble Ag 2 SO 4 insoluble Cr(OH) 3

Predicting Ionic Solubility Use a solubility chart to predict the solubility of the following compounds in water. State whether they are soluble or insoluble in water. Ca(NO 3 ) 2 soluble CuCl 2 soluble KBr soluble (NH 4 ) 2 CO 3 soluble Fe(NO 3 ) 3 soluble Ca(OH) 2 insoluble NH 4 CH 3 COO soluble Pb(NO 3 ) 4 soluble Ca 3 (PO 4 ) 2 insoluble CuCl insoluble KCH 3 COO soluble PbCO 3 insoluble BaSO 4 insoluble AgOH insoluble Ag 2 SO 4 insoluble Cr(OH) 3 insoluble

General Solubility Rules (Time savers) Nitrates (NO 3 1- ) soluble with all cations. Ammonium (NH 4 1+ ) soluble with all anions. Alkali Metals (Li 1+, Na 1+, K 1+,…) soluble with all anions.

Predicting the Precipitate that Forms in a Chemical Reaction In a chemical reaction between two Ionic solutions, a precipitate may form. If a precipitate forms, one of the products of the reaction is the precipitate, in other words, it is insoluble and it is a solid. We can predict which product forms the precipitate if we have a solubility chart handy.

Predicting the Precipitate that Forms in a Chemical Reaction For example, When a solution of Potassium iodide [KI (aq) ] reacts with a solution of Lead (II) nitrate [Pb(NO 3 ) 2 (aq) ], a yellow precipitate forms. This reaction can be described in words: Potassium iodide solution reacts with Lead (II) nitrate solution to form Potassium nitrate with Lead (II) iodide. One of the products is insoluble (the yellow precipitate)

Predicting the Precipitate that Forms in a Chemical Reaction First Step: Write out the Balanced Reaction Equation: 2KI (aq) + 1Pb(NO 3 ) 2(aq)  2KNO 3(?) + 1PbI 2(?) Second step: Determine which product is insoluble: Name of productFormulaSolubility Potassium nitrate Lead (II) iodide

Predicting the Precipitate that Forms in a Chemical Reaction First Step: Write out the Balanced Reaction Equation: 2KI (aq) + 1Pb(NO 3 ) 2(aq)  2KNO 3(?) + 1PbI 2(?) Second step: Determine which product is insoluble: Name of productFormulaSolubility Potassium nitrate KNO 3 Lead (II) iodide PbI 2

Predicting the Precipitate that Forms in a Chemical Reaction First Step: Write out the Balanced Reaction Equation: 2KI (aq) + 1Pb(NO 3 ) 2(aq)  2KNO 3(?) + 1PbI 2(?) Second step: Determine which product is insoluble: Name of productFormulaSolubility Potassium nitrate KNO 3 Soluble - ie (aq) Lead (II) iodide PbI 2

Predicting the Precipitate that Forms in a Chemical Reaction First Step: Write out the Balanced Reaction Equation: 2KI (aq) + 1Pb(NO 3 ) 2(aq)  2KNO 3(?) + 1PbI 2(?) Second step: Determine which product is insoluble: Name of productFormulaSolubility Potassium nitrate KNO 3 Soluble - ie (aq) Lead (II) iodide PbI 2 Insoluble - ie (s)

Predicting the Precipitate that Forms in a Chemical Reaction The Total Ionic Equation shows all of the ions present in the two solutions, and which ones form the precipitate. When writing this equation, you must balance the atoms and the charges, you must also indicate which species are (aq) and which, if any forms the precipitate (s). 2K 1+ (aq) + 2I 1- (aq)

Predicting the Precipitate that Forms in a Chemical Reaction The Total Ionic Equation shows all of the ions present in the two solutions, and which ones form the precipitate. When writing this equation, you must balance the atoms and the charges, you must also indicate which species are (aq) and which, if any forms the precipitate (s). 2K 1+ (aq) + 2I 1- (aq) + 1Pb 2+ (aq) + 2NO 3 1- (aq) 

Predicting the Precipitate that Forms in a Chemical Reaction The Total Ionic Equation shows all of the ions present in the two solutions, and which ones form the precipitate. When writing this equation, you must balance the atoms and the charges, you must also indicate which species are (aq) and which, if any forms the precipitate (s). 2K 1+ (aq) + 2I 1- (aq) + 1Pb 2+ (aq) + 2NO 3 1- (aq)  2K 1+ (aq) + 2NO 3 1- (aq)

Predicting the Precipitate that Forms in a Chemical Reaction The Total Ionic Equation shows all of the ions present in the two solutions, and which ones form the precipitate. When writing this equation, you must balance the atoms and the charges, you must also indicate which species are (aq) and which, if any forms the precipitate (s). 2K 1+ (aq) + 2I 1- (aq) + 1Pb 2+ (aq) + 2NO 3 1- (aq)  2K 1+ (aq) + 2NO 3 1- (aq) + 1PbI 2(s)

Predicting the Precipitate that Forms in a Chemical Reaction The Net Ionic Equation demonstrates only the ions that form the precipitate. To show the Net Ionic Equation, you get rid of Spectator Ions – ions that do not take part in the reaction (ie., they appear the same on the reactant side as they do on the product side.) 2K 1+ (aq) + 2I 1- (aq) + 1Pb 2+ (aq) + 2NO 3 1- (aq)  2K 1+ (aq) + 2NO 3 1- (aq) + 1PbI 2(s)

Predicting the Precipitate that Forms in a Chemical Reaction The Net Ionic Equation demonstrates only the ions that form the precipitate. To show the Net Ionic Equation, you get rid of Spectator Ions – ions that do not take part in the reaction (ie., they appear the same on the reactant side as they do on the product side.) 2K 1+ (aq) + 2I 1- (aq) + 1Pb 2+ (aq) + 2NO 3 1- (aq)  2K 1+ (aq) + 2NO 3 1- (aq) + 1PbI 2(s)

Predicting the Precipitate that Forms in a Chemical Reaction The Net Ionic Equation demonstrates only the ions that form the precipitate. To show the Net Ionic Equation, you get rid of Spectator Ions – ions that do not take part in the reaction (ie., they appear the same on the reactant side as they do on the product side.) 2K 1+ (aq) + 2I 1- (aq) + 1Pb 2+ (aq) + 2NO 3 1- (aq)  2K 1+ (aq) + 2NO 3 1- (aq) + 1PbI 2(s)

Predicting the Precipitate that Forms in a Chemical Reaction The Net Ionic Equation demonstrates only the ions that form the precipitate. To show the Net Ionic Equation, you get rid of Spectator Ions – ions that do not take part in the reaction (ie., they appear the same on the reactant side as they do on the product side.) Simplified and rearranged: 1Pb 2+ (aq) + 2I 1- (aq)  1PbI 2(s)

Summary - Big Ideas Some double displacement reactions form precipitates. Precipitates form in double displacement reactions between two ionic solutions. Precipitates are insoluble ionic compounds, and do not dissolve. A net ionic equation demonstrates only the ions that react.

Any Questions?