Presentation is loading. Please wait.

Presentation is loading. Please wait.

25.1 DISPOSING OF TOXIC HEAVY METALS PRE-LAB: PART A- “FIXING” THE COPPER IONS IN A SOLID MIXTURE.

Published byCassie Pert Modified over 9 years ago

Similar presentations

Presentation on theme: "25.1 DISPOSING OF TOXIC HEAVY METALS PRE-LAB: PART A- “FIXING” THE COPPER IONS IN A SOLID MIXTURE."— Presentation transcript:

1 25.1 DISPOSING OF TOXIC HEAVY METALS PRE-LAB: PART A- “FIXING” THE COPPER IONS IN A SOLID MIXTURE

2 LESSON TARGETS I can understand that many useful chemical processes produce waste by-products that must be disposed of safely. I can experiment with different products to find the best method to solidify and safely dispose of the liquid waste produced during the refining process.

3 VOCABULARY Leach- the removal of a substance by the filtering of water or other liquid (ex. Rainwater can leach minerals and fertilizers from soil.) Heavy metals- metal of relatively high density, or of high relative atomic weight. Excessive levels of exposure can be damaging to humans.

4 TESTABLE QUESTION How does the fixing of copper sulfate in different concentrations of cement or sodium silicate affect the leaching of copper from the solid material? Note: We want the copper to stay in the solid material. This would mean we are keeping it out of the soil and water…

5 HYPOTHESIS Write a hypothesis for what you believe will happen with the copper when it is fixed into a solid material. If the copper sulfate is combined with ______________ then it will _____________, because______________________.

6 MATERIALS List the materials you will use in Part A make sure your list is bulleted. 180mL bottle of sodium silicate Portland cement 120mL dropper bottle of 50,000ppm copper sulfate sln. Clear plastic cup Plastic spoon 30mL graduated cup Safety glasses Paper towels

7 SAFETY NOTE Portland cement can irritate your eyes and lungs. Do not breathe in the mixture and wear your goggles. Sodium silicate is a skin irritant; wash thoroughly if it comes in contact with your skin.

8 VARIABLES Manipulated Variable: Ratio of cement to sodium silicate Responding Variable: The concentration of copper sulfate Control Variables: Amount of copper sulfate; time to solidify

9 PROCEDURES PART A 1.Pour measured amount of Portland cement into the clear plastic cup. Use a paper towel to wipe out any dry cement that clings to the side of the cup. 2.Add 10mL of 50,000ppm copper sulfate sln. to the cement in the plastic cup. Stir to combine. Rinse the graduated cup. 3.Use the graduated cup to add the assigned amount of sodium silicate to the copper-cement mixture. Mix well. Record description of mixture in data table. 4.Label cup with period and group number. 5.Place in fume hood to dry overnight.

10 DATA TABLE Check with other groups and fill in the information for the “Appearance of Mixture”. Look in the Fume Hood to see the dry mixtures.

11 PART B LESSON TARGET I can calculate the concentration of a waste solution based on the concentration of a known solution.

12 PART B. CONTNTINUED 1.Add 10 drops of your teams copper sulfate sln. to Cup 1 2.Add 9 drops of water to Cups 2- 5, and 10 drops of water to Cup 6. 3.Transfer one drop of sln from Cup 1 to Cup2. 4.Continue dilution procedure adding one drop of the previous sln. to the next cup up to Cup 5. 5.Record the color of each cup in your data table. 6.Add 10 drops of ammonia to all 6 cups. 7.Record observations.

13 SERIAL DILUTION PART B 50,000ppm Sln. OR 24.1 Waste Sln.

14 PART B. ANALYSIS QUESTIONS 1.How does the addition of ammonia help determine the concentration of copper in a solution? Is it necessary? 2.What is the lowest concentration of copper that can be detected using the ammonia test? 3.Compare your groups estimate of the concentration of copper in the undiluted waste solution from activity 24.1 (Part A, Procedure step 9) with the estimate made by another team. How close are the two estimates? Explain reasons you see for any variations. What do you think you should do if the variations are large?

15 PART B. ANALYSIS QUESTIONS 4.An independent laboratory performed the same test as Team A on a 50,000ppm copper sulfate solution. They report the data in the table shown below. Describe the similarities and differences between their results and those your group reported.

16 EXPERIMENTAL SET UP- BEFORE ADDITION OF AMMONIA

17 RESULTS These circles represent the experimental controls – Water and ammonia.

18 RESULTS What do the results suggest?

19 PART C TESTING YOUR SOLIDIFIED MIXTURE UNDER ACIDIC CONDITIONS Lesson Target I can determine if solidifying heavy metals in a solid matrix stops them from leaching into the surrounding environment.

20 PROCEDURES 1.Pick up a 5ml crushed sample of the solid you prepared in Part A. 2.Prepare a Filter set up- wetting the filter paper to help it sit in the funnel. 3.Add 10mL of simulated acid-rain solution to the crushed solid in your cup. Swirl for 30 seconds. 4.Transfer the contents of the cup to the filter set up and clean the cup. 5.Using the data table from Part A record the color of the filtrate collected in the large cup. 6.Transfer 10 drops of filtrate to Cup 1 of your tray, add 10 drops of 5% ammonia to it. Record the color in your table. 7.Estimate the copper concentration. Record in your table. 8.Complete your data table by checking with other groups.

21 ANALYSIS QUESTIONS Answer analysis Questions 1-5 in your lab notebook. 1.

Download ppt "25.1 DISPOSING OF TOXIC HEAVY METALS PRE-LAB: PART A- “FIXING” THE COPPER IONS IN A SOLID MIXTURE."

Similar presentations

S&S 12.1 Soil Nutrients and Fertilizers GLEs 1.3.10, 3.1.3, 3.2.4.

S&S 12.1 Soil Nutrients and Fertilizers GLEs , 3.1.3,
Activity 35 Analysis Did in class

Activity 35 Analysis Did in class
Understanding Serial Dilutions and Concentration

Understanding Serial Dilutions and Concentration
Pre-Lab: A Cell Model. Lesson Target I can explain how boundaries and compartments help living systems maintain and regulate the conditions necessary.

Pre-Lab: A Cell Model. Lesson Target I can explain how boundaries and compartments help living systems maintain and regulate the conditions necessary.
October 30 Do Now Q: Announcements: Important Dates: (that means…write it down in your calendar)

October 30 Do Now Q: Announcements: Important Dates: (that means…write it down in your calendar)
Hayeon Jun Stoichiometry Limiting and Excess Reactant.

Hayeon Jun Stoichiometry Limiting and Excess Reactant.
Mole Ratio of Reactants Laboratory 35 pts Name: For your laboratory report, please turn in just answers to the questions on the last slide, in addition.

Mole Ratio of Reactants Laboratory 35 pts Name: For your laboratory report, please turn in just answers to the questions on the last slide, in addition.
Summary of Experimental Procedure. Safety Warning ! Strong Acids and Bases, Halogens Wear safety glasses and gloves when handling with chemicals in a.

Summary of Experimental Procedure. Safety Warning ! Strong Acids and Bases, Halogens Wear safety glasses and gloves when handling with chemicals in a.
Major Concepts Activity 40 The concentration of a solution is expressed in terms of parts of solute to parts of solution. Parts per million (ppm) are used.

Major Concepts Activity 40 The concentration of a solution is expressed in terms of parts of solute to parts of solution. Parts per million (ppm) are used.
States of Matter Slime. Eureka! States of Matter: Liquids.

States of Matter Slime. Eureka! States of Matter: Liquids.
Heavy Liquids Separation. Heavy Liquids Overview Methylene iodide (MI; ρ = 3.32 g/cm 3 ) is used to concentrate material according to density. When added.

Heavy Liquids Separation. Heavy Liquids Overview Methylene iodide (MI; ρ = 3.32 g/cm 3 ) is used to concentrate material according to density. When added.
SURVEY OF CHEMISTRY LABORATORY I

SURVEY OF CHEMISTRY LABORATORY I
Salt Deposits Soil Salinity 012-10991 r1.04. Salt Deposits Soil Salinity 012-10756 r1.04.

Salt Deposits Soil Salinity r1.04. Salt Deposits Soil Salinity r1.04.
Activity 37 Analysis In this investigation, which substance(s) are solutes and which are solvent(s)? Sodium chloride and copper chloride are solutes Water.

Activity 37 Analysis In this investigation, which substance(s) are solutes and which are solvent(s)? Sodium chloride and copper chloride are solutes Water.
Experimental Procedure Lab 402. Overview Three different experiments are complete in a calorimeter. Each experiment requires careful mass, volume, and.

Experimental Procedure Lab 402. Overview Three different experiments are complete in a calorimeter. Each experiment requires careful mass, volume, and.
COPYRIGHT SAUTTER 2003 MOLE RELATIONSHIPS IN CHEMICAL REACTIONS (An Experimental Approach) WHAT IS A CHEMICAL REACTION? A PROCESS IN WHICH NEW SUBSTANCES.

COPYRIGHT SAUTTER 2003 MOLE RELATIONSHIPS IN CHEMICAL REACTIONS (An Experimental Approach) WHAT IS A CHEMICAL REACTION? A PROCESS IN WHICH NEW SUBSTANCES.
Crystals Conduct observations of the physical properties of crystals.

Crystals Conduct observations of the physical properties of crystals.
Science Inquiry Project Dilution Vs

Science Inquiry Project Dilution Vs
Laboratory Concepts Dani Klingert. Accuracy When titrating, rinse the buret with the solution to be used in the titration instead of with water. If you.

Laboratory Concepts Dani Klingert. Accuracy When titrating, rinse the buret with the solution to be used in the titration instead of with water. If you.
SafetyHazardsMixturesDensityVolumeMisc. 100 200 300 400 500.

SafetyHazardsMixturesDensityVolumeMisc

Similar presentations

Ads by Google