Inquiry across Scientific Disciplines 2009
David Myton, LSSU
Michelle Ribant, EUPISD
Welcome, SIGN-IN, have a snack, the session will begin at 9:00 AM
The Grant
• What’s coming, what’s happening, and what will be required
What else is needed for:
• SBCEUs
• Graduate Credit
The Overall Agenda
For the week
• Monday – Life Science
• Tuesday – Physical Science
• Wednesday – Earth/Space Science
• Thursday – Project work time
The Daily Agenda
For each day• 8:30 Pre-session visiting and snacks• 9:00 Video segment & Discussion• Activities on the inquiry theme• 12:00 Lunch• Presentation by team member• More activities• 3:00-3:30 Adjourn
When good facts go bad
The Monday AgendaWelcome and Sign-in• Video: Why are some ideas difficult• Triangulum activity • Building a Taxonomic Key• Birds of a Feather• Simulated Student WorkLunch• Spinning Tubes • Marzano Science Vocabulary • Bottle Activity• Science Fair Topics• Game time• My Ship Sails• Daily surveyAdjourn
Life Science Standards
• Review the standards for Life Science, select someone to report on your collective experiences in addressing those standards in your classroom
Why are some ideas so difficult?
http://www.learner.org/resources/series29.html
Is an imprecise or incomplete answer necessarily a wrong answer?
Persistent Naive Conceptions
• Plants obtain food from the soil• Photosynthesis is the respiration of
plants
“Students believe we breathe oxygen in and out, and plants breathe carbon dioxide in and out – don’t believe them, they are not right”
For I took an Earthen Vessel, in which I put 200 pounds of Earth that had been dried in a Furnace, which I moystened with Rain-water, and I implanted therein the Trunk or Stem of a Willow Tree, weighing five pounds: and about three ounces: But I moystened the Earthen Vessel with Rain-water, or distilled water (alwayes when there was need) and it was large, and implanted into the Earth, and leaft of the Vessel, with an Iron-Plate covered with Tin, and easily passable with many holes. I computed not the weight of the leaves that fell off in the four Autumnes. At length, I again dried the Earth of the Vessel, and there were found the same 200 pounds, wanting about two ounces. Therefore 164 pounds of Wood, Barks, and Roots, arose out of water onely.
— Jan Baptista van Helmont Oriatrike: Or, Physick Refined, trans. john Chandler (1662), 109.
Carbon Cycle
Write a balanced chemical equation for photosynthesis
• So what I told you was true... from a certain point of view
genus Triangulum
Which of these things belongs together…
• Sort your bag of pictures by characteristics (not names) of the specimens shown.
• Create a Taxonomic Key to separate and identify each of the specimens
• ‘Key-out’ the specimens from another group using your key
• Tables ‘report-out’
Standards?
• At your table - use the photos from your packets to find examples supporting the life science standards
• Tables report-out on examples
Birds of a Feather
• Examine the feathers in your sample
• Look for the barbs (who has the photo to illustrate this trait?)
• Glue up a feather game-piece marker for a later activity
• Optional: make a feathered bookmark or other artifact
Simulated Student Work
• Create an activity where students will create a game board using key life science standards for your level.
• Create a simulated student work sample (a game board of your own devising) to illustrate the concept.
For example: a chutes-ladders style game where one spot may lead the player to the fossil pit, and another has abundant food one year triggers overpopulation unless they roll a “5” - moving the player back five spaces
Lunch
The Mysterious Spinning Tubes of Science
• READ the directions BEFORE doing anything: You will take the medium length tube from your bag hold so the RED end is to your right. You will place your finger on the RED “X”, snap your finger downward
• FIRST PREDICT what will happen.
• Now try it…
More Spinning
• PREDICT what will happen with the shorter tube – then test your prediction
• PREDICT what will happen when using the longer tube – then test your prediction
Mysterious Wand Clock of Science
Science Vocabulary
• Robert “Rocky” Marzano and the necessity of appropriate vocabulary in science
Bottle Activity
• The pressure in the bottle was reduced when the fire used up the oxygen inside. The force of the air pressure outside of the bottle, pushed the egg inside.
Egg in a Bottle by Belinda Mooney http://www.lessontutor.com/belm14.html
Inquiry in Science Fair
• Review the titles from the list of science fair topics
• Discuss examples at your table
• Select one title and how to structure the activity to better make it an inquiry based experiment
Science Game Reports
• Please briefly describe your activity and how it can help students relate to your content standards
My Ship Sails
• My ship sails with a cargo of _________
MONDAY wrap-up
• Feedback
• Tuesday’s schedule
• SAMPI observer
Inquiry across Scientific Disciplines 2009
David Myton, LSSU
Michelle Ribant, EUPISD
Welcome, SIGN-IN, have a snack, the session will begin at 9:00 AM
The Tuesday AgendaWelcome and Sign-in• Video: Can we Believe our Eyes• Activity: lights and mirrors• Penny Activity• A Blue Crystal
Lunch• Lesson Demonstration• Dancing Raisins• Pendulum Activity• Heat Exchange
Adjourn
Physical Science Standards
• Review the standards for Physical Science, select a new person (from yesterday) to report on your collective experiences in addressing those standards in your classroom
Can you Light the Bulb using the battery and one wire?
• Receive a wire, bulb and battery for each pair of teachers. Light the bulb.
• View video segment from 0:00 – 6:45
Can you See Yourself?
• Draw a sketch showing how you see yourself when you look in a mirror
• Draw another sketch where you are standing at a different distance from the mirror – does it change what you see?
Through the Looking Spoon
• What do you see when you look into the back of a mirrored spoon?
• What do you see when you look into the bowl of a mirrored spoon?
• Draw a sketch to explain what you see.
• Try looking with two spoon bowls
• View video from 6:45 – 16:00
VIDEO
• http://www.learner.org/resources/series26.html
• Preliminary activity - bulb
• View from 0:00-6:45
• Second activity – mirrors
• View from 6:45-
What can we learn about a population of Pennies?
• Collect a reasonable sample of the population and characterize them by all their available traits. Tabulate your results
• What traits can be used to characterize the pennies? Compare observations at your table
• Construct a graph to represent and convey some information about your characterization of pennies
Report Out on Pennies
• Describe the traits identified in your observations, and identify any relevant standard
Other interesting things• File an edge of a newer penny and place it
into the hydrochloric acid
• Clean a penny with table salt and vinegar (do not touch the clean penny with your grimy fingers – use tongs)
• Bathe the cleaned penny in a warmed solution of zinc and sodium hydroxide (lye) until coated with silvery coating
• Heat your rinsed penny with a torch (use tongs to hold the penny)
A Blue Crystal
Examine a sample of the specimen and note its characteristics. Compare notes with your tablemates
Heat (not eat) the sample
• Place a small sample of the specimen into a test tube, and heat with the torch. Observe what happens, any change in characteristics, or properties
• Repeat with a carefully weighed sample
• Combine your findings with other teachers and compile enough data to make a graph
Lunch
• Please wash your hands before you eat
Inquiry Lesson
• Special Guest Presenter: Carrie Carr
What time is it?
• Create a hanging swing which will provide a consistent convenient timing tool (e.g. 5 cycles in 10 seconds, or 10 cycles in 5 seconds)
• Discuss at your table the factors which affect the cycle time
Heating/Cooling
• Sketch a graph of how the wax temperature will change with time as the wax cools
• Write a brief explanation of the shape of your sketch
• Conduct the experiment
• Write two “we wonder, we would like to see, we’re not sure why….” statements
Playing with Food
• Add a few raisins to a bit of cold Sprite in a tall glass cylinder
• Draw a sketch to explain what is happening
My Ship Sails
• My ship sails with a cargo of pennies.
Lighting the bulb
• Persistent Misconceptions
• View 20:00 – 26:30
Who’s on first
• http://www.youtube.com/watch?v=sShMA85pv8M
Inquiry across Scientific Disciplines 2009
David Myton, LSSU
Michelle Ribant, EUPISD
Welcome, SIGN-IN, have a snack, the session will begin at 9:00 AM
The Wednesday AgendaWelcome and Sign-in• Video: Astronomy – Eliciting Student Ideas• Activity: seasons and moon phases• Aquifer ActivityLunch• Lesson Demonstration – Barb Light• Powers of Ten• Black Box• Watching Ice Melt & Energy Transfer• Separation of Plastics• Review of Lesson RequirementsAdjourn
Seasons
• Draw a sketch, and write a brief explanation, for the causes the seasons
• Video
• 5:20, 6:00-8:53, 27:20-28.56
Sketch
• Use the Sun, Moon and Earth to explain this picture
http://astrokit.co.uk/images/Crescent-Moon-20080210-1280.jpg
Aquifer Activity
Lunch
• What should you use the word ‘orientated’ compared to the word ‘oriented’
Model Lesson
• Barb Light
Powers of Ten• Create a word table with one column
• In the first row put 1 “.”
• In the next row put 10 “.”s
• In the next row put 100 “.”s
•www.powersof10.com
• http://www.youtube.com/watch?v=1Z53wTtGGA0
Reflections
What is in the Center of the Earth?
• Number a sheet from 1-12
• Examine each box without opening it and make an educated of it’s contents (size, shape, including a guess as to it’s contents
Watching Ice Melt
• Place an ice cube in a cup of warm water and observe it carefully noting the changes.
• Gently keep it away from the edges of the cup
Energy Transfer
• Set up a heat lamp and explore the relationship between the light, the distance and angle of light, and the color of paper the light strikes.
Separation of Plastic
• Follow the directions on your activity flow chart to identify each unlabeled plastics samples.
Inquiry across Scientific Disciplines 2009
Download Workshop files at
http://myton.pbworks.com
Welcome, SIGN-IN, have a snack, the session will begin at 9:00 AM
The Thursday AgendaWelcome and Sign-in• Video: Energy – where should we start• GLCEs & Data Directory• Lesson Development• Literacy and Inquiry
Lunch• LSSU Faculty Panel• Lesson Development & Report-out• Technology• SAMPI Survey
Adjourn
Video: Energy – where should we start
10:30 student interviews
20:40-27:35 Eliciting student ideas
GLCEs & Data Directory
EUPISD Staff deliver data for groups to use in evaluating student learning, gap analysis, and areas for lesson focus
Lesson Development
Group Work Time
Literacy and Inquiry
Books and resources
Continue with lesson development
Lunch
LSSU Faculty Panel:
Dr. Barbara Keller, Division Head for Chemistry, Environmental Sciences, Geology and Physics
Dr. Bijay Arayal, Asst. Prof. of Physics
And we hope a mystery scientist yet to be named ….
Technology Infusion
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mail.eup.k12.mi.us
Outgoing mail server (SMTP): smtp.eup.k12.mi.us
Gmail•Enable POP in Gmail. Don't forget to click Save Changes when you're done. •Configure your client to match the settings below:
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pop.gmail.comUse SSL: Yes
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Account Name: your full email address (including @gmail.com or @your_domain.com)
Email Address: your email address ([email protected] or username@your_domain.com)
Password: your Gmail password
SAMPI SURVEYStipend Request Form
Download Workshop files at
http://myton.pbworks.com
Thanks for comingDavid Myton, Ph.D.
Professor of Chemistry
Head, Department of Education
[email protected] (906) 635-2349
Thanks for coming
David Myton, Ph.D.
Professor of Chemistry
Head, Department of Education
(906) 635-2349
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