Tinkerplots III

1. Tinkerplots III Dr. Carryn Bellomo UNLV Department of Mathematical Sciences carryn.bellomo@unlv.edu

2. Tinkerplots Basics • We have seen how Tinkerplots helps you see trends and patterns in data • Today we will go over lessons you can use with your class, and gathering data from the internet.

3. Tinkerplots Basics • How many need a quick Tinkerplot refresher? • There are movies to help you.Located in: Tinkerplots Help  Movies • Adding Data (entering your own data set) • Comparing Groups (Occupational Data) • Exploring Relationships (Ozone Levels) • Making Common Graphs (Student Data) • Tinkerplot Basics (Cat Data)

4. Tinkerplots Activities Refresher Example: • Heaviest Backpacks Sample Lessons: • Roll of 6-sided number cube • Price of Gas • Finding Pi • Birthrates over time (data imported from web) • Maintaining Balance (data imported from web) Try it Yourself (time permitting): • Collect data that interests you, and tell us about it!

5. Refresher – Heaviest Backpacks • Here we will explore the backpack weights of students • The data cards given have information on • First name of student • Gender of student • Grade level of student • Weight of student in pounds • Weight of student’s backpack in pounds

6. Refresher – Heaviest Backpacks • Open “Heaviest Backpacks.tp”Located in:Data and Demos Exploring Data Starters • What kind of relationships do we expect to find? • How should we organize the data?

7. Refresher – Heaviest Backpacks Investigate the Data: • Is there a relationship between packweight and grade? Compare the mean packweight for each grade level. • Do girls tend to carry lighter backpacks than boys? • Does a person who weighs more carry a heavier pack?

8. Lesson – Roll of Dice • Motivation:When rolling two six-sided number cubes, what number(s) are the most likely outcomes? By how much? • Data can be gathered in two ways: • Students can be given six-sided number cubes, and asked to roll and record their results • Students can use computer software to simulate random rolls of dice

9. Lesson – Roll of Dice Lesson Objectives: • Determine probabilities, frequencies, construct a frequency distribution, etc. Materials Needed: • Six-sided number cubes, or software • Tinkerplots

10. Lesson – Roll of Dice • Collect data • Students should tally the number of times the sum of die gives a roll (2 through 12) • The more data collected the better. Why? • Enter data into Tinkerplots • Drag out a Table • Add two new attributes by double clicking and typing in:RollValue is the value of the roll, and Frequency is the no. of times value was rolled • Enter the data by hand (see next slide)

11. Lesson – Roll of Dice • Get the data from the Internet • Go to the websitehttp://www.unlv.edu/faculty/bellomo • Click on the link for 7th Grade Grant • Under Measurement Seminar • Open the file called “Excel_Mar06.xls” • This data is under the “Class Ex” tab Enter the data into Tinkerplots manually

12. Lesson – Roll of Dice • Create a histogram • Drag out a Plot • Drag Frequency to the vertical axis, and RollValue to the horizontal axis • Drag the points up and to the right until the data is fully separated • Change Circle Icon to Value Bar Vertical

13. Lesson – Roll of Dice • Find the Probability • Open the table (if it isn’t already) • Name a new attribute • Click on Table and Show Formulas • Double click on the gray box underneath your new attribute (the formula dialogue box will come up) • Type in the formula for probability, i.e. Frequency/(No. of Trials) • Click OK

14. Lesson – Roll of Dice • Investigate data to answer • Which roll(s) occur most frequently? Why? • Which roll(s) occur least frequently? Why? • What is the probability of rolling a 7?

15. Lesson – Price of Gas • Motivation:How have gas prices fluctuated through the years? • Here, data will be taken from the internet and analyzed to answer the above question.

16. Lesson – Price of Gas Lesson Objectives: • Determine the price of gas (in $ per barrel) after adjusting the price of the dollar Materials Needed: • Access to data (internet) • Tinkerplots

17. Lesson – Price of Gas • Get the data from the Internet • Go to the websitehttp://www.unlv.edu/faculty/bellomo • Click on the link for 7th Grade Grant • Under Measurement Seminar • Open the file called “Excel_Mar06.xls” • This data is under the “Crude Oil” tab

18. Lesson – Price of Gas • Get the data into Tinkerplots • Highlight the data on the webpage • Copy the data by holding down the Control key and pressing C • Go to a blank page in Tinkerplots • Pull out a stack of data cards • Go to Edit, then Paste Cases • Label the attributes (Year, Dollar, OilPrice)

19. Lesson – Price of Gas • Create a scatterplot • Drag out a Plot • Drag OilPrice to the vertical axis, and Year to the horizontal axis • Drag the points up and to the right until the data is fully separated • Right click on any one data point and click on Show Connecting Lines

20. Lesson – Price of Gas • Analyze the data • Are there any trends in the data? • When were gas prices the highest? • What is the major flaw in our analysis of this data?

21. Lesson – Price of Gas • Account for fluctuation in the dollar by adding a new attribute • Open the table (if it isn’t already) • Name a new attribute • Click on Table and Show Formulas • Double click on the gray box underneath your new attribute (the formula dialogue box will come up) • Type in the formula for the cost per barrel in today’s dollar, i.e. OilPrice*TodayDollar • Click OK

22. Lesson – Price of Gas • Create a scatterplot with Today’s Dollar price of oil • Answer the questions again • Are there any trends in the data? • When were gas prices the highest?

23. Lesson – Finding Pi • Motivation:Using the relationship of circumference to diameter to find an estimate for Pi

24. Lesson – Finding Pi Lesson Objectives: • Identify linear relationships, relate two variables, plot lines, ratio. Materials Needed: • Several spherical objects • Measuring tape • Tinkerplots

25. Lesson – Finding Pi • Collect data • Students should record the circumference and diameter for each object in a table • Be careful of units! • Enter data into Tinkerplots • Drag out a Table • Add two new attributes by double clicking and typing in:Object is the object that was measured Circumference, and Diameter

26. Lesson – Price of Gas • Get the data from the Internet • Go to the websitehttp://www.unlv.edu/faculty/bellomo • Click on the link for 7th Grade Grant • Under Measurement Seminar • Open the file called “Excel_Mar06.xls” • This data is under the “Finding Pi” tab

27. Lesson – Finding Pi • Create a scatterplot • Drag out a Plot • Drag Circumference to the vertical axis, and Diameter to the horizontal axis • Drag the points up and to the right until the data is fully separated

28. Lesson – Finding Pi • Analyze the data • Does it seem there is a linear relationship with this data? • Sketch a line through these points, and estimate the slope

29. Lesson – Finding Pi • Estimate Pi • Open the table (if it isn’t already) • Name a new attribute • Click on Table and Show Formulas • Double click on the gray box underneath your new attribute (the formula dialogue box will come up) • Type in the formula for Circumference divided by Diameter • Click OK

30. Lesson – Finding Pi • Create a scatterplot with C/d along the vertical • Answer the questions • Does there seem to be a relationship between circumference and diameter? • When diameter increases, what happens to the circumference? • What is an estimate of the ratio of C/d?

31. Lesson – Birthrates Over Time The data can be found at : http://lib.stat.cmu.edu/DASL/Datafiles/Birthrates.html Before We Begin : • Look at the data collection process • What kinds of questions can we answer with this data set?

32. Lesson – Birthrates Over Time Get the data into Tinkerplots: • Highlight the data on the webpage (including column titles) • Copy the data by holding down the Control key and pressing C • Go to a blank page in Tinkerplots • Pull out a stack of data cards • Go to Edit, then Paste Cases

33. Lesson – Birthrates Over Time Investigate the Data to Answer: • What can we say about birthrates from 1917 through 1975? • What possible influences were there during this time period?

34. Lesson – Maintaining Balance The data can be found at : http://lib.stat.cmu.edu/DASL/Datafiles/Balance.html Before We Begin : • Look at the data collection process • What kinds of questions can we answer with this data set?

35. Lesson – Maintaining Balance Get the data into Tinkerplots: • Highlight the data on the webpage (including column titles) • Copy the data by holding down the Control key and pressing C • Go to a blank page in Tinkerplots • Pull out a stack of data cards • Go to Edit, then Paste Cases

36. Lesson – Maintaining Balance Investigate the Data to Answer: • How do the two groups compare in maintaining both forward and side-to-side balance? • Is one group more “steady” than the other?

37. Try it Yourself ! • Investigate a topic that interests you • This could be data from the internet, or • Design a lesson with data you can collect with your students • Share with us your ideas!

38. Conclusion • This presentation and handouts can be found at:http://www.unlv.edu/faculty/bellomo