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Physical Science CHS 2013-14 Unit 3 Properties of Matter

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Physical Science CHS 2013-14. Unit 3 Properties of Matter. 12/2/13 Week of 12/2 to 12/6. Entry Task Find a definition for ATOMS and ELEMENT in the textbook. . Today’s Agenda. Get out your Newton Movie Questions. Read through them together so that you know what you are listening for. - PowerPoint PPT Presentation

TRANSCRIPT

Page 1: Physical Science CHS 2013-14

Physical Science CHS 2013-14

Unit 3Properties of Matter

Page 2: Physical Science CHS 2013-14

12/2/13Week of 12/2 to 12/6

• Entry Task

• Find a definition for ATOMS and ELEMENT in the textbook.

Page 3: Physical Science CHS 2013-14

Today’s Agenda

• Get out your Newton Movie Questions.• Read through them together so that you know

what you are listening for. • Raise your hand to share if you hear an

answer to one of the questions. • The movie will be paused briefly when

answers are heard.

Page 4: Physical Science CHS 2013-14

12/2/13

• Exit Task

• Describe some themes in Newton’s life.

Page 5: Physical Science CHS 2013-14

12/3/13

• Entry Task

• What is a pure substance? • What is a mixture? • List physical means of separation (p. 181).

• 5 minute review and Turn in whatever you have for the Newton Questions.

Page 6: Physical Science CHS 2013-14

C-notes on pages 178-182 and 190-194

Vocabulary (left) – meanings (right)• Element• Compound• Atom• Molecule• Mixture• Pure Substance• Solid • Liquid • Gas• Plasma• Intermolecular Forces• Melting Point• Boiling Point

Key Ideas (left) – answer (right)• Describe the differences

between pure substances and mixtures (a venn diagram may help).

• List the 4 phases of matter in order of increasing temperature

• Describe what happens at the molecular level when a substance melts.

• Describe what happens at the molecular level when a substance boils.

Page 7: Physical Science CHS 2013-14

C-notes on pages 178-182 and 190-194

Vocabulary (left) – meanings (right)• Element• Compound• Atom• Molecule• Mixture• Pure Substance• Solid • Liquid • Gas• Plasma• Intermolecular Forces• Melting Point• Boiling Point

Key Ideas (left) – answer (right)• Describe the differences

between pure substances and mixtures (a venn diagram may help).

• List the 4 phases of matter in order of increasing temperature

• Describe what happens at the molecular level when a substance melts.

• Describe what happens at the molecular level when a substance boils.

Page 8: Physical Science CHS 2013-14

12/3/13

• Exit Task

• Explain the difference between an element and a compound.

Page 9: Physical Science CHS 2013-14

12/4/13

• Entry Task

• Look at your safety rules (Unit 1). • Write down 3 safety rules for using bunsen burners

or open flames in the lab.

• TEST MAKE-UPS: If you still need to complete a Unit 2 test YOU ARE RESPONSIBLE to schedule with me.

Page 10: Physical Science CHS 2013-14

Today’s Agenda – Learn about Bunsen Burners

• What is a Bunsen Burner - history• Video Tutorial – the one minute version• Slow down! – How to Light a Bunsen Burner• Notes – parts and steps of use• Tomorrow you will take a quiz and a performance

assessment on using Bunsen burners. • You will have to pass the quiz and the performance

assessment in order to get your bunsen burner license.

• What is the right sequence?

Page 11: Physical Science CHS 2013-14

Label the parts

• air intake• combustion nozzle• barrel/body tube• gas jet (point to inside)• base• gas valve/dial

Page 12: Physical Science CHS 2013-14
Page 13: Physical Science CHS 2013-14

Functions of Parts

– air intake: adjustable; controls amount of oxygen; adding more air makes flame hotter

– combustion nozzle: gas and air mix to ignite– barrel: turn this to adjust air intake– gas valve/dial: adjustable; controls amount of

gas entering burner; adding more gas makes flame taller

– base: holds up Bunsen burner– gas jet: small hole that gas goes through

Page 14: Physical Science CHS 2013-14

Steps to Light and Turn Off1. Wear safety goggles, tie back long hair, no loose clothing. 2. Check striker for sparks.3. Attach hose to burner and gas line . 4. Turn barrel clockwise to close and then open slightly to let a small amount of air

flow.5. Turn gas valve/dial counter clockwise to close.6. turn on gas by rotating valve parallel to hose.7. Open gas valve/dial slightly – should hear faint hissing.8. Hold striker at 45 degree angle and light. 9. For a taller flame – open gas valve/dial more to allow more gas. For a shorter

flame – turn gas valve/dial back counter clockwise. 10. For a hotter flame – turn barrel counter clockwise (increases air flow). Flame

should turn blue. 11. For a cooler flame – turn barrel clockwise (decreases air flow). Flame should turn

orange.12. The ideal flame is pale blue with a darker blue core. Draw a picture of the flame. 13. To turn off: turn barrel clockwise for a cooler, orange flame. Completely turn off

the gas valve/dial. Turn off gas line.

Page 15: Physical Science CHS 2013-14

Safety Precautions

• Wear safety goggles, tie back long hair, no loose clothing.

• Hold Bunsen burner at the bottom to avoid burns.

• Never leave open flames unattended.• Know location of safety exits, emergency shut-

off and fire extinguishers.

Page 16: Physical Science CHS 2013-14

12/4/13

• Exit Task

• What part of the Bunsen Burner flame is the hottest? Draw a picture or explain

Page 17: Physical Science CHS 2013-14

12/5/13• Entry Task

• Fill in the blanks: 1. Attach hose to _______ and ________ . 2. Turn barrel _________ to close and then open slightly to

let a small amount of air flow.3. Turn __________ _______-_______ to close.4. turn on gas by rotating valve _________ to hose.5. Open gas valve/dial slightly – should hear __________.6. Hold _________ at 45 degree angle and light.

Page 18: Physical Science CHS 2013-14

Today’s Agenda

• TURN IN HOMEWORK ASSIGNMENT.• Complete notes• Take written portion of quiz. • Passed the quiz? • Practice the steps to light the burner and turn

off the burner AT YOUR TABLE WITHOUT ACTUALLY USING GAS

• Performance Assessment of these steps tomorrow or Monday.

Page 19: Physical Science CHS 2013-14

12/5/13

• Exit Task-SKIPPED DUE TO QUIZ

• Fill in the blanks:• To turn off: turn barrel _________ for a

cooler, orange flame. Completely turn off the __________. Turn off _________.

Page 20: Physical Science CHS 2013-14

12/6/13

• Entry Task

• Say Something Nice

Page 21: Physical Science CHS 2013-14

Today’s Agenda

• Unit2 MC tests will be returned to you. • Please get out your red sheets. • Graph your post-assessment score. • Did you meet your goal set towards the beginning

of the unit? • Unit 2 Math tests will be returned to you. • REQUIRED REFLECTIONS: If your Scantron score is

less than 28. • Discuss Answers.

Page 22: Physical Science CHS 2013-14

12/6/13

• Exit Task

• Trade and Grade• Please turn in your Entry/Exit task sheets for

this week: 12/2 – 12/6/13.

Page 23: Physical Science CHS 2013-14

12/9/13Week of 12/9 to 12/13

• Entry Task

• Papers handed back. • Add together your Unit 2 MC test POINTS and

math portion POINTS. • Take the TOTAL POINTS and divide by 66. Multiply

by 100 to calculate your percent. • Record this percent and write down if you would

like to regain some points with a reflection.

Page 24: Physical Science CHS 2013-14

Today’s Agenda

• Review Math answers to Unit 2 test.• Divide into 3 groups: • Group 1 - reflecting on MC portion of UNIT 2 – retrieve

your test from counter; sit down with separate sheet of paper for reflection. TESTS WILL BE RECOLLECTED AT END OF CLASS.

• Group 2 – reflecting on MATH portion of UNIT 2. Remember to reflect on a separate piece of paper.

• Group 3 – no reflection necessary. Read pages 200-210. Answer questions #1-10 on p. 211.

Page 25: Physical Science CHS 2013-14

12/9/13

• Exit Task

• Make a connection: Consider the amount of homework you completed for Unit 2. Also consider the quality of your efforts studying. Did your effort yield results in your test scores? Explain what these results show you.

Page 26: Physical Science CHS 2013-14

12/10/13

• Entry Task

• What kind of energy is heat? Does heat flow from hot to cold or cold to hot?

• Homework: Read pages 200-210. Answer questions #1-10 on p. 211. Due Thursday 12/12/13

• SAFETY LECTURE!!

Page 27: Physical Science CHS 2013-14

Today’s Agenda• On back of quiz: Please explain WHY the steps are in the SAFEST ORDER. • REVISE ANY CIRCLED items on the written Bunsen Burner. You must get

100%• PRACTICE:

– 1. Goggles and tie back hair. – 2. attach hoses – 3. allow a small amount of air – 4. Close gas valve/dial – 5. Turn on gas line. – 6. Turn on small amount of gas. – 7. Light with striker

• Performance Assessment for Bunsen Burners• Once you receive your license….• Flame Test Lab – using colors to determine chemical elements. NEVER

LEAVE FLAME UNATTENDED.

Page 28: Physical Science CHS 2013-14

Today’s Agenda• On back of quiz: Please explain WHY the steps are in the SAFEST ORDER. • REVISE ANY CIRCLED items on the written Bunsen Burner. You must get

100%• PRACTICE:

– 1. Goggles and tie back hair. – 2. attach hoses – 3. allow a small amount of air – 4. Close gas valve/dial – 5. Turn on gas line. – 6. Turn on small amount of gas. – 7. Light with striker

• Performance Assessment for Bunsen Burners• Once you receive your license….• Flame Test Lab – using colors to determine chemical elements. NEVER

LEAVE FLAME UNATTENDED.

Page 29: Physical Science CHS 2013-14

12/10/13

• Exit Task

• CANCELLED DUE TO PERFORMANCE ASSESSMENTS.

Page 30: Physical Science CHS 2013-14

12/11/13

• Entry Task

• Describe the energy transfers and transformations from the gas coming through the tube to the paperclip in the flame. (Remember gas is stored chemical energy)

• Homework: Read pages 200-210. Answer questions #1-10 on p. 211. Due Thursday 12/12/13

Page 31: Physical Science CHS 2013-14

Today’s Agenda• Finish Performance Assessments and Bunsen Burner

Licenses.• Once you receive your license….MAKE SURE I HAVE THAT

RECORDED IN GRADEBOOK BEFORE YOU LEAVE!• Flame Test Lab – using colors to determine chemical

elements. • NEVER LEAVE FLAME UNATTENDED. Make sure a team mate

is attending the burner before you retrieve the chemical. • Test the chemical in the hottest part of the flame. • Put the paper clip back in the appropriate beaker!!!

Page 32: Physical Science CHS 2013-14

General Steps for Flame Test• Make sure your flame test loop is clean.

– Put it into hottest part of Bunsen Burner flame. No color change should occur if it is clean.

– If it isn’t clean, dip it into acid provided, then put into flame. Repeat until there is no color change.

• Dip clean loop into solution.• Put loop into hottest part of the Bunsen Burner flame.• Observe and record the color of the flame for the

particular solution.• Put the paperclip back in SAME SOLUTION!

Page 33: Physical Science CHS 2013-14

12/11/13

• Exit Task

• CANCELLED DUE TO PERFORMANCE ASSESSMENTS. • IF TIME – What colors did the flame tests show?• Cobalt – • Magnesium – • Calcium – • Barium – • Potassium –

Page 34: Physical Science CHS 2013-14

12/12/13

• Entry Task

• Discuss yesterday’s flame test results. • Give a definition of DENSITY.

• Get out homework. Calculate percent and QUICK review!

Page 35: Physical Science CHS 2013-14

The Nature of Matter

Page 36: Physical Science CHS 2013-14

Matter

MixturePure Substance

YES NO

YES NO

Homogeneous Mixture

Heterogeneous Mixture

NO

Element Compounds or Molecules

Are the particles one kind of atom?

Are all the particles alike?

Are the particles well-mixed and mixed evenly?

YES

Classifying Matter

Page 37: Physical Science CHS 2013-14

Pure Element, Compound/Molecule,

or Mixture?

Page 38: Physical Science CHS 2013-14
Page 39: Physical Science CHS 2013-14

1. Elements– all particles are alike– the smallest particle of an element that is still

recognizable is called an atom– they can’t be broken down anymore by “normal

means”– they are found on the periodic table

• currently there are about 118 elements• chemical symbols are used to represent

the elements–Example: C=carbon, N=nitrogen…..

Pure Substances

Page 40: Physical Science CHS 2013-14
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2. Compounds and Molecules (over 10 million exist)

– two or more elements chemically combined– once combined, the properties of a compound are

different than the elements that make it up– can be broken down into the elements that make

them up– example: Sugar is C6H12O6

• made up of carbon, hydrogen, and oxygen • looks nothing like C, H, O by themselves• can be broken down when burned

Page 43: Physical Science CHS 2013-14
Page 44: Physical Science CHS 2013-14

1. Heterogeneous Mixture– different samples are not necessarily made up of

exactly the same proportions of matter– can often see different particles mixed together– often can be easily separated

Mixtures

Page 45: Physical Science CHS 2013-14

2. Homogeneous Mixture– is the same throughout– often can’t see different particles mixed together– often difficult to separate– examples: steel, milk, salt water, Kool Aid®

Page 46: Physical Science CHS 2013-14

• properties of matter are that it has:– mass: amount of matter (atoms) in an object– volume: amount of space an object takes up– density: the mass per unit volume of an object

Page 47: Physical Science CHS 2013-14
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– density is a property of material independent of quantity or shape

Page 49: Physical Science CHS 2013-14

Density

v

D = densitym = massv = volume

D = m/v

Page 50: Physical Science CHS 2013-14

Example problem• A piece of lead has a mass of 56.4 g and

a volume of 5 mL. Calculate its density.

ml is same as cm3 so sometimes see g/cm3

Looking for:

Solution:

Given:

Formula:

Density

Mass = 56.4 gVolume = 5 mL

D = m/v

D = 56.4 g/ 5 mLD = 11.28 g/mLSame as…D = 11.28 g/cm3

Page 51: Physical Science CHS 2013-14

12/12/13

• Exit Task

• How do you determine density of an object?• What two characteristics do you need to know

about the object? • If time: How could you measure those for an

irregular solid?

Page 52: Physical Science CHS 2013-14

12/13/13

• Entry Task

• Say Something Nice• REMEMBER – Be nice about someone’s

character, effort, behavior, respect or integrity.

Page 53: Physical Science CHS 2013-14

Today’s Agenda

• Finish Notes• If time: start Density Lab

Page 54: Physical Science CHS 2013-14

12/13/13

• Exit Task

• Post It Notes inside comp book if other labs still need to be graded: – Speed Lab?– Egg Drop?

• If Time: Trade and Grade

Page 55: Physical Science CHS 2013-14

12/16/13

• Entry Task

• Look at the following chart. What is the densest material? How can you tell? What are the units?

• Please turn in your MATTER AND DENSITY NOTES. • Collect your comp book. Tomorrow we will revise

the pendulum lab.

Page 56: Physical Science CHS 2013-14
Page 57: Physical Science CHS 2013-14

Density of Substances

• Purpose– Determine the densities of four solids, two

liquids, and then compare to the actual answers.

• Materials– balance, graduated cylinder, ruler, calculator– 6 substances

• little stopper, big stopper, yellow liquid, green liquid, Cu cube, Cu wire,

Page 58: Physical Science CHS 2013-14

• Procedure– find the mass (using a balance) and volume

(using a ruler or graduated cylinder) of each substance

– calculate density using D = m/v

– Optional: calculate percentage error using│your answer – actual answer│

actual answer (100)

Page 59: Physical Science CHS 2013-14

289.968 g

Page 60: Physical Science CHS 2013-14

11.5? ml

Page 61: Physical Science CHS 2013-14
Page 62: Physical Science CHS 2013-14

Substance Mass (g) Volume (ml or cm3)

CalculatedDensity (g/ml or

g/cm3)

Actual Density (g/ml or g/cm3)

Cu cube

Cu wire

big stopper

little stopper

yellow liquid

green liquid

Density of Different Substances

Page 63: Physical Science CHS 2013-14

Substance Mass (g) Volume (ml or cm3)

CalculatedDensity (g/ml or

g/cm3)

Actual Density (g/ml or g/cm3)

Cu cube 9.0

Cu wire 9.0

big stopper 1.3

little stopper 1.3

yellow liq. ??

green liq. 1.0

Density of Different Substances

Page 64: Physical Science CHS 2013-14

12/16/13

• Exit Task

• Would you expect the copper wire and copper cube to have the same density? Why or why not?

Page 65: Physical Science CHS 2013-14

12/17/13• Entry Task

• At the mouth of some rivers, a fresh water layer can form on top of salt water. Explain this using your understanding of density.

• HOMEWORK: Read pages 216-220 and 222-225. Answer # 1,2,3,6 on page 221 AND #1-8 on page 226. DUE FRIDAY 12/20/13.

• HOLIDAY COOKIES TO CLASS WHO MEETS THEIR HW GOAL!

Page 66: Physical Science CHS 2013-14

Today’s Agenda• Finish density lab. You will have 15 MINUTES for the

remainder. • Discuss results. Record actual densities. • Return papers. Show best Labs. • Fix Pendulum Labs where needed (circled items on

rubric). • An adult will sign off on your rubric when finished fixing

circled items. • If there is not time to check yours, you MUST turn back in

your comp book to the shelf for re-grading WITH YOUR RUBRIC.

• When finished, you may begin on homework.

Page 67: Physical Science CHS 2013-14

12/17/13

• Exit Task

• How close did you come to calculating the actual density of the 6 materials at the stations?

• Explain where/how/when you could have been more accurate.

Page 68: Physical Science CHS 2013-14

12/18/13

• Entry Task

• Write down the definition of SOLUTION from the textbook.

• Is a solution of MIXTURE or a PURE SUBSTANCE? Can you think of a common solution you like to drink?

Page 69: Physical Science CHS 2013-14

Identification of dissolved Solids and a metallic solid

Solutions

Page 70: Physical Science CHS 2013-14

What is a solution?

• Solution: A mixture that is homogeneous down to the molecular level

Example:think Koolaid…

Page 71: Physical Science CHS 2013-14

Types of solutions

• 2 solids – metal alloy like steel• 2 liquids – lemon juice and water• Solid and liquid – salt water• Liquid and gas – carbonated drink• Gas in gas – oxygen and nitrogen in

atmosphere

Page 72: Physical Science CHS 2013-14

Parts of a solution

• Solvent : the thing that does the dissolving. (the water)

• Solute : the thing that gets dissolved. (the Koolaid powder)

• Could you filter out the powder after it dissolves?

• No, it is homogeneous to the molecular level.

Page 73: Physical Science CHS 2013-14

How do you get the dissolved solid back out of the solution?

• Evaporation! Remove all the liquid by turning it into a gas and the solid will recrystallize.

Page 74: Physical Science CHS 2013-14

To separate a dissolved solid from a liquid…

• Boil off the liquid at a low temp and keep the solid before it reaches its melting point!

• Liquid turns to gas… solid is left behind!

• DEMO• http://www.youtube.com/watch?v=O87PYJgi

w1Y

Page 75: Physical Science CHS 2013-14

Name … Partners…

Separation and Identification of Two Solids in Water

• Question– What are the two solids (one soluble, one insoluble) mixed in

the water?

• Materials– Beakers – small, large– balance/scale– Solution with dissolved solids and a metallic solid– hot plate– Lab scoop– safety goggles– Tweezers – Tongs– Plastic dish

Page 76: Physical Science CHS 2013-14

Your part in the lab…..• Procedure

– Complete this today….what will you do to separate and identify the two solids? Numbered and detailed.

• Data Collection– For each substance, you will need to collect data to

help you identify it. – What data? – Mass and Volume, and calculated density– Observed physical characteristics: solid,

crystalline, metallic, etc

Page 77: Physical Science CHS 2013-14

Analysis• Conclusion

– State what your two substance are and give as much supporting evidence as possible.

– example• The silver metal in our mixture is tin. The calculated density was 6.4 g/ml while

tin’s actual density is 7.3 g/ml; a difference of only 0.9 g/ml. The metal is the same silver/grey color as tin. It is not soluble in water like tin. The metal melted around 450°C and tin melts at 231°C. Like tin, the metal has no odor nor color flame when heated. And finally, like tin, it did not react with hydrochloric acid.

• The solid that dissolved in water in our mixture is sugar. The…

• Evaluation – Evaluate how the lab went

• Identify at least TWO weaknesses or errors, then suggest specific and realistic improvements to the lab based on the two weaknesses identified

Page 78: Physical Science CHS 2013-14

12/18/13

• Exit Task

• In Portugal, they allow salt water to pour into shallow pools. After a number of days in the hot sun, the sea salt can be collected from the edges of the pool.

• How is the solid salt separated from the sea water?

Page 79: Physical Science CHS 2013-14

12/19/13

• Entry Task

• Based on your knowledge that flames are hotter and cooler in different regions, how might you determine the melting point of a solid?

• REMINDER: Homework due TOMORROW!! Cookies at stake!!

Page 80: Physical Science CHS 2013-14

Melting point

• You can’t find melting point exactly with our equipment

• You can get a good range.

• Start with the coldest flame parts and work toward the hotter parts.

• The coldest part of the flame it melts in is the top of the range.

Page 81: Physical Science CHS 2013-14

Melting point

Temp (C)11001000900800700600500300200

Page 82: Physical Science CHS 2013-14

Odor Test

• Some substances have a characteristic odor – think about ammonia!

• Be sure to waft when doing an odor test.

Page 83: Physical Science CHS 2013-14

Today’s Agenda

• Finish Notes• Think and talk and write down procedure. • You may conduct the initial portion of the lab:

pull out the insoluble solid and begin heating the solution.

• Find the density of the insoluble solid. • Record physical properties.• Record odor.

Page 84: Physical Science CHS 2013-14

Per 1 - Procedure1. Goggles on and hair tied back.2. Use tweezers to remove the insoluble solid and place on paper towel.

3. Pour 50 mL of solution into smaller beaker and place on hotplate at

low temp (2-4)4. Check mass and volume and calculated density of insoluble solid

while waiting. 5. Write down physical properties of insoluble solid. 6. Conduct odor test. 7. Conduct flame test wearing gloves at bunsen burner.8. Conduct melting point test in bunsen burner flame moving solid from

cool to hot to record range. 9. Take to Ms. Maring for acid test in fume hood. 10. Before leaving lab, use tongs to lift smaller beaker off hot plate and

pour concentrated solution into plastic dish. Turn off hotplate. Team number on dish and place on shelf.

11. Complete these tests for separated soluble solid AFTER XMAS BREAK!!!!!

Page 85: Physical Science CHS 2013-14

Per 2 - Procedure1. Goggles on and hair tied back. 2. Take insoluble solid out of solution with tweezers and place on

paper towel. 3. Find mass and volume and calculate density of insoluble solid.

Record. 4. Pour 50 mL of solution into small beaker, place on hotplate (2-

4).5. While waiting you can conduct other tests. 6. Conduct flame test on solution. Record color of flame. 7. Observe and record physical characteristics, conduct odor test,

is it soluble. 8. Conduct a flame test and a melting point test on insoluble

solid. Place hot solid in beaker with water to cool. 9. Conduct acid test – take to Ms. Maring at fume hood.

Page 86: Physical Science CHS 2013-14

Per 3 - Procedure1. Safety gear – goggles and pull back hair2. Get the insoluble solid out with tweezers and place it on paper towel. 3. Pour 50 mL of solution into small beaker, plug in and turn on hotplate

(2-4).4. Observe and record physical properties of insoluble solid, odor test,

find mass/volume and calculate density, answer: is it soluble?5. Conduct flame test on solution and insoluble solid. 6. Conduct melting point test on insoluble solid. Put hot solid in beaker

of cold water. 7. Take insoluble solid to Ms. Maring. She will conduct acid test at fume

hood. 8. RECORD ALL DATA!9. Use tongs to lift hot beaker and pour into plastic dish. Scrape any

solids with scoopula. Team # on dish, dish on shelf. Turn off hotplate. 10. Conduct all the above tests on separated soluble solid after XMAS

BREAK

Page 87: Physical Science CHS 2013-14

Per 4 - Procedure1. Put on goggles and tie hair back2. Use tweezers to remove insoluble solid from solution and place on

paper towels.3. Pour 50 mL of solution into small beaker, place beaker on hotplate,

plug in, turn on to 2-4. 4. Conduct solubility test, odor test, find mass and volume and

caculate density, record physical properties.5. Conduct flame test and melting point test in bunsen burner flame.

Use gloves and tongs. Drop hot solid into beaker of water to cool. 6. Take solid to Ms. M at fume hood for acid test. 7. Use tongs to take small beaker off hotplate. Pour and scrape

concentrated solution into dish. Team # on bottom and place dish on shelf. Let beaker cool before placing on counter. Turn off hotplate.

8. Conduct all the above tests on soluble solid after XMAS BREAK!!

Page 88: Physical Science CHS 2013-14

Per 6 - Procedure1. Goggles and hair tied back.2. Use tweezers to pull insoluble solid out of solution. 3. Pour 50 mL of solution into small beaker, place on hotplate, turn

on to 2-4. 4. Conduct odor test, say if soluble in water, calculate density,

record physical properties, of the insoluble solid. 5. Conduct flame test on solution with paperclip. 6. Conduct flame test on insoluble solid. 7. Conduct melting point test on insoluble solid.8. Take solid to Ms. M at the fume hood for acid test. 9. Use tongs and pour concentrated solution into dish, scrape with

scoopula. Team # and place on shelf. Turn off hotplate. 10. Conduct all the above tests on the soluble solid AFTER XMAS

BREAK!!!!

Page 89: Physical Science CHS 2013-14

• 10. Use tongs to pour concentrated solution into plastic dish. Turn off hotplate. Let beaker cool to set on counter. Put team # on dish, place on shelf.

• 11. CONDUCT ALL THE ABOVE TESTS on soluble solid after XMAS BREAK!

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Procedure

• Goggles on• Pull insoluble solid out of solution with

tweezers and dry on paper towel.• Pour 50-100 mL of the solution into the small

beaker and begin warming on low heat. • Find the mass and volume of the insoluble

solid. Calculate its density.

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• Take solid to Ms. Maring to do an acid test. • Conduct a flame test on the insoluble solid. • Determine approximate melting point of

insoluble solid by starting in the coolest part of the flame and moving the substance upwards until it just begins to melt.

• Use wafting to conduct and record odor. • Complete above tests on separated dissolved

solid after Holiday Break.

Page 92: Physical Science CHS 2013-14

12/19/13

• Exit Task

• What methods would allow you to determine these characteristics:– Physical properties– Odor– Solubility– Density– Flame test– Melting point

Page 93: Physical Science CHS 2013-14

12/20/13

• Entry Task

• Say Something Nice

• Tally HW percent and GET COOKIES if you meet your goal. I will hand you your cookies as you exit the classroom!

• Hand in HW.

Page 94: Physical Science CHS 2013-14

Today’s Agenda

• Conduct acid test, flame test, and melting point test on the insoluble solid.

• Refer to chart and guess what the insoluble solid is.

• Write your conclusion based on evidence for the insoluble solid.

Page 95: Physical Science CHS 2013-14

12/20/13

• Exit Task

• Trade and Grade• Turn in your Entry/Exit Task Sheet for the

week.

• HAPPY HOLIDAYS

Page 96: Physical Science CHS 2013-14

1/6/14Week of 1/6 to 1/10

• Entry Task

• Recall and describe the lab we were working on before winter break. What is our goal? What methods were we using?

• Homework: Read pages 536-544. Answer questions 1-7 on page 545. Due Thursday 1/9/14.

Page 97: Physical Science CHS 2013-14

Possible Sludge Materials

• Look through chart – individually• Discuss – how could you use this chart in your

current lab? • Resume lab activities: COMPLETE ALL TESTS ON

INSOLUBLE SOLID– Conduct acid test, flame test, and melting point test,

density on the insoluble solid. – Refer to chart and guess what the insoluble solid is. – Write your conclusion based on evidence for the

insoluble solid.

Page 98: Physical Science CHS 2013-14

1/6/14

• Exit Task

• What substance do you think the insoluble solid is?

• List 2 pieces of evidence in support of this conclusion using your data table.

Page 99: Physical Science CHS 2013-14

1/7/14

• Entry Task

• Based on the solubility and physical properties (appearance) of the recrystallized solid, list the materials from the chart that it might be.

• REMINDER Homework: Read pages 536-544. Answer questions 1-7 on page 545. Due Thursday 1/9/13.

• Set new HW goals!

Page 100: Physical Science CHS 2013-14

Today’s Agenda• Complete evaporation and testing on soluble solid. • DATA TO COLLECT for SOLUBLE SOLID:

– Physical properties– Odor– Solubility– Flame test– Melting point– AT THE LAST: find mass of remaining soluble solid. Bring that

up to fume hood to find volume IN ALCOHOL (discuss why we won’t find volume in water!)

• Finished early? Start your conclusion using evidence!!

Page 101: Physical Science CHS 2013-14

Melting point

Temp (C)11001000900800700600500300200

Page 102: Physical Science CHS 2013-14

1/7/14

• Exit Task

• What do you guess the soluble solid is? • Use at least 2 pieces of evidence to support

your answer.

Page 103: Physical Science CHS 2013-14

1/8/14• Entry Task

• EXPLAIN HOW YOUR CONCLUSION will be “logical, based on evidence, and consistent with prior established knowledge.”?

• REMINDER Homework DUE TOMORROW: Read pages 536-544. Answer questions 1-7 on page 545. Due Thursday 1/9/13.

• Watch demonstration of finding density of insoluble solid. Do you need to revise your density?

Page 104: Physical Science CHS 2013-14

Today’s Agenda• Write and Refine conclusions – you may discuss this

in teams but each person will write the conclusion in their lab books. Your conclusion should summarize ALL DATA COLLECTED and COMPARE TO REFERENCE SHEET!– example

• The silver metal in our mixture is tin. The calculated density was 6.4 g/ml while tin’s actual density is 7.3 g/ml; a difference of only 0.9 g/ml. The metal is the same silver/grey color as tin. It is not soluble in water like tin. The metal melted around 450°C and tin melts at 231°C. Like tin, the metal has no odor nor color flame when heated. And finally, like tin, it did not react with hydrochloric acid.

• Evaluate your lab in your lab book: • Identify at least TWO weaknesses or errors, then suggest specific and

realistic improvements to the lab based on the two weaknesses identified

Page 105: Physical Science CHS 2013-14

1/8/14

• Exit Task

• Explain the 2 weaknesses of your lab and how you could improve those areas.

Page 106: Physical Science CHS 2013-14

1/9/14

• Entry Task

• Can you think of any ways to separate a solution of 2 liquids?

• 15 minutes to finish CONCLUSIONS – turn in.• Trade and Grade HOMEWORK. Turn in• HAND BACK PAPERS – place in binder

Page 107: Physical Science CHS 2013-14

Today’s Agenda

• Notes on Last Practice Lab before Sludge: Fractional Distillation.

Page 108: Physical Science CHS 2013-14

Fractional Distillation

• Question– How can a mixture of two liquids be separated and

identified?• Materials

– fractional distillation apparatus – liquid mixture– Bunsen burner and striker– 1 large and 2 medium test tubes and stoppers– Test tube rack– Triple beam balance and graduated cylinder (day 2)

Page 109: Physical Science CHS 2013-14
Page 110: Physical Science CHS 2013-14
Page 111: Physical Science CHS 2013-14

ProcedureHair back and goggles on entire lab. Get 15 ml of the liquid mixture (never fill the test tube

you are heating more than 1/3 full).Make sure there are about 10 boiling chips in the test

tube you will be heating.Heat with Bunsen burner on the LOWEST HEAT

POSSIBLE in order to maintain a mild, rapid boil. Flame should be orange and gas very low.

Carefully watch the temperature.Keep the rubber tube out of the liquid you are

“making”.AFTER the temperature has leveled off for a while

and then begins to rise again– carefully switch test tubes to “catch” the second liquid.

Page 112: Physical Science CHS 2013-14

Phase Changes – these happen at different temperatures for different substances.

Page 113: Physical Science CHS 2013-14

Data Collection/Observations1. Record the boiling point temperature for first and

second liquid (place where temperature levels off)2. Complete physical properties, density, and odor tests. 3. Come to the front to complete flammability test and

acid test. Conclusion

State your two liquids and give ALL THE EVIDENCE for ONE of them.Based on evidence, our first liquid was propanol. Our second liquid was hydrogen disulfide. It had a slight

yellow color and hydrogen disulfide is a yellow oil. Our calculated density was 1.4 g/ml and hydrogen disulfide’s density is 1.3 g/ml. That is only a 0.1 g/ml difference Like hydrogen disulfide, our liquid is not flammable………..

Page 114: Physical Science CHS 2013-14

1/10/14

• Entry Task

• Say Something Nice

Page 115: Physical Science CHS 2013-14

Today’s Agenda

• Day 1 - Fractional Distillation Lab – separate liquids.

• VERY LOW HEAT ORANGE FLAMES ONLY!!!!!!• Once separated, stopper the test tubes. Label

test tube rack with your names. Place on class shelf.

Page 116: Physical Science CHS 2013-14

1/10/14

• Exit Task

• Trade and Grade!• Please turn in your exit task sheet for the

week.

Page 117: Physical Science CHS 2013-14

1/13/14Week of 1/13 to 1/17/14

• Entry Task

• Based on the physical properties (and appearance) and boiling points of the two liquids, what do you predict they are?

• Complete notes for end of lab…

Page 118: Physical Science CHS 2013-14

Data Collection/Observations1. Record the boiling point temperature for first and

second liquid (place where temperature levels off)2. Complete physical properties, density, and odor tests. 3. Come to the front to complete flammability test and

acid test. Conclusion

State your two liquids and give ALL THE EVIDENCE for ONE of them.Based on evidence, our first liquid was propanol. Our second liquid was hydrogen disulfide. It had a slight

yellow color and hydrogen disulfide is a yellow oil. Our calculated density was 1.4 g/ml and hydrogen disulfide’s density is 1.3 g/ml. That is only a 0.1 g/ml difference Like hydrogen disulfide, our liquid is not flammable………..

Page 119: Physical Science CHS 2013-14

Today’s Agenda

• Complete tests on the two liquids: Liquid A and B• Tests to complete:

– Physical Properties– Density– Odor Test– Flammable? Watch demo!!! Come to the front desk for

this.– React with acid?

• Write your conclusion in your comp book: State the 2 liquids; write evidence for ONE!

Page 120: Physical Science CHS 2013-14

1/13/14

• Exit Task

• State the 2 liquids and explain which two pieces of evidence were most helpful.

Page 121: Physical Science CHS 2013-14

1/14/14

• Entry task

• WRITE THIS DOWN: • End of Semester is January 31st. • ANY missing work for this unit due by next

Friday, January 24th!!

Page 122: Physical Science CHS 2013-14

Today’s Agenda

• Hand back papers and organize binders• Write down work you may be missing.• DURING FIRST 15 minutes – you can work on

YOUR CONCLUSION for the fractional distillation lab – IN YOUR COMP BOOK!

• SLUDGE QUIZ – you must pass – Sludge starts tomorrow.

Page 123: Physical Science CHS 2013-14

1/14/14

• Exit Task

• None – taking Sludge Quiz

Page 124: Physical Science CHS 2013-14

1/15/14

• Entry Task

• Today you will be given a sludge mixture with 8 unknown substances, including insoluble solids, a soluble solid, and two liquids. What might you most easily separate first?

• TURN IN COMP BOOKS TO SHELF.

Page 125: Physical Science CHS 2013-14

Today’s Agenda• New seats and team mates• Sludge Quiz Grade. • Discuss• Fix Answers – you’ll need 13/15 correct to proceed. • Handout Data Table, Points Sheet• Review Lab • 3 grades – Participation, Lab, Written (Final)• Create Daily Log Sheet• RECORD SLUDGE MIXTURE NUMBER!!!!!• Separate and test a metal• Last 5 - Clean Up

Page 126: Physical Science CHS 2013-14

1/15/14

• Exit Task

• What is your goal for tomorrow’s Sludge Lab?• What will your first steps be?

Page 127: Physical Science CHS 2013-14

1/16/14

• Entry Task

• Which strengths do you bring to group work?• Application Standard: “I can work

collaboratively with other students to generate ideas for solving a problem.”

• http://www.uvm.edu/~wfox/CollaborativeSkills.html

Page 128: Physical Science CHS 2013-14

Today’s Agenda• Take notes in your daily log.• Separate at least 1 insoluble solid. • You have been given 5 plastic dishes. • DELEGATE! Everyone should be working. • Do not WANDER from station. You will lose

participation points. • Complete all tests per substance!• Draw a conclusion? • Start tests on next substance. • CLEAN-UP! Sludge left out = points lost

Page 129: Physical Science CHS 2013-14

1/16/14

• Exit Task

• Use 2 pieces of evidence from your tests and compare to the reference chart, to suggest the name of one substance.

Page 130: Physical Science CHS 2013-14

Melting point

Temp (C)11001000900800700600500300200

Page 131: Physical Science CHS 2013-14

1/17/14

• Entry Task

• Say Something Nice

Page 132: Physical Science CHS 2013-14

Today’s Agenda

Page 133: Physical Science CHS 2013-14

1/17/14

• Exit Task

• Trade and Grade• Please turn in your Entry/Exit Task sheets for

the week.