1. Write balanced net ionic equations for the following reactions: a) The precipitation of the chloride of Hg22+ in Step 1. b) The formation of a yellow precipitate in Step 3. c) The formation of a black precipitate in Step 4. d) The reaction that occurs in Step 5. Step 5: Identification of Ag*. Soh Add 6 M HNO3 to the test tube containing the solution saved in Step 4 until it is acidic. It will take approximately 1 ml. Test for acidity by dipping the end of a glass stirring rod into the solution and then touching it to blue litmus paper. The litmus paper will turn red if the solution is acidic. The formation of a white precipitate (AgCl) indicates the presence of Ag+ ions.
1. Write balanced net ionic equations for the following reactions: a) The precipitation of the chloride of Hg22+ in Step 1. b) The formation of a yellow precipitate in Step 3. c) The formation of a black precipitate in Step 4. d) The reaction that occurs in Step 5. Step 5: Identification of Ag*. Soh Add 6 M HNO3 to the test tube containing the solution saved in Step 4 until it is acidic. It will take approximately 1 ml. Test for acidity by dipping the end of a glass stirring rod into the solution and then touching it to blue litmus paper. The litmus paper will turn red if the solution is acidic. The formation of a white precipitate (AgCl) indicates the presence of Ag+ ions.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Balanced net ionic equation of d)
Transcribed Image Text:1. Write balanced net ionic equations for the following reactions:
a) The precipitation of the chloride of Hg22+ in Step 1.
b) The formation of a yellow precipitate in Step 3.
c) The formation of a black precipitate in Step 4.
d) The reaction that occurs in Step 5.
Transcribed Image Text:Step 5: Identification of Ag*.
Soh
Add 6 M HNO3 to the test tube containing the solution saved in Step 4 until it is acidic. It will take
approximately 1 ml. Test for acidity by dipping the end of a glass stirring rod into the solution and
then touching it to blue litmus paper. The litmus paper will turn red if the solution is acidic. The
formation of a white precipitate (AgCl) indicates the presence of Ag+ ions.
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