##
* *Reflection: Discourse and Questioning
Who's a Widget? Making Sense of Definitions - Section 1: Launch: Who's a Widget? (How to Write Good Definitions)

*Widget Video Narrative*

*Who's a Widget? Making Sense of Definitions*

# Who's a Widget? Making Sense of Definitions

Lesson 2 of 8

## Objective: Students will be able to recognize and apply the components of a "good" definition (classification and differentiation). Students will be able to test definitions of terms by looking for counterexample.

The Common Core explicitly asks students to attend to precision (**MP6**), which students must do as they grapple with the preciseness of definitions and apply them correctly. For this reason, I introduce the features of definitions (classification and differentiation) by showing the class Widget Examples and Non Examples. For this task I give silent, individual, think time (1-2 minutes) for students to identify and be able to explain which figure(s) are widgets.

After students have identified Widgets and non-Widgets themselves, I have them share out in their group and try to come to an agreement as to which figure(s) are widgets. When circulating the room, I ask students how they determined who the widgets are and ask them about the characteristics widgets have in common. I am asking questions to help students focus closely on classification and differentiation.

After groups seem to have come to an agreement on the widgets, I ask each group to write a good definition for "the widget". I tell groups that we will test the quality of the definition by searching for **counterexamples**.

During the whole class discussion, I call on each group to read their definition. I have found that typing the definition and projecting it helps the entire class can see the definition and be able to test it. I then give 1-2 minutes for the other groups to search for a counterexample, which they can draw on the whiteboard. (See my reflection **Unpacking the Qualities of a Good Definition** for more information about this discussion.)

I give groups a chance to refine their definitions based on the previous discussion and have them tested by their peers. Ultimately, after this round of refining and testing another definition, the class should agree on a good definition for a widget, which might be something like, "a creature (classification) with colorful bodies and with nothing else inside and two tails: *one tail is a crescent moon and the other is like an eyeball *(*differentiation*)."

*expand content*

This is a great chance to link the "Who's a Widget?" discussion to yesterday's Definitely, Maybe activity. In Definitely, Maybe, the last image students worked with appeared to be a square but was actually a rectangle. The main point of having this discussion is to impress upon students that observations are different from inferences, and that we often need more evidence to actually prove that our inferences are true!

I now ask students to test a definition for a rectangle, "a shape that has four right angles," by trying to find counterexamples. After students share out counterexamples, focus again on the idea of definitions needing classification as well as differentiation, e.g., a better definition for a rectangle would be "a quadrilateral with four right angles."

If it seems like students might want another example on which to practice, they can test this definition for parallel lines, "two lines that never meet/intersect/cross." Ideally, after testing this definition, students will see that they to mention that the lines must be in the same plane. Using pencils is often a convincing way to show students the difference between parallel lines and skew lines; additionally, holding up a cube and showing students edges that will never intersect (but are definitely not parallel) can help.

*expand content*

#### Investigation

*20 min*

**Investigation: Defining Angles**

In the Defining Angles Investigation, I pass out an envelope containing examples and non-examples of different types of angles (right, acute, obtuse, vertical, linear, complementary, and supplementary). Using the ideas of classification and differentiation, students will write and test definitions for different kinds of angles.

Directions:

- Ask students to sit as a group of four, but with the group divided into two pairs.
- Pass out an investigation envelope to each pair (the directions should be glued to the outside of the envelope and examples and non-examples of each type of angle should be inside).
- Pairs should come to an agreement on the definition for each type of angle and write the definition on their copy of the Defining Angles Workspace.
- Pairs may not trade definitions for testing until both pairs are done writing.

While students work, I circulate the room and look at students' definitions, making sure they start writing their definitions with the correct classification ("an angle...") and that they focus on the characteristics that differentiate the angles from one another (the angle's measure if it is acute, right, or obtuse, or, the angle's relative location to another if the pair of angles is vertical or linear.

*expand content*

#### Debrief

*10 min*

By this point, all students have worked on defining all the types of angles as well as tested others' working definitions of these angles. Now is a great time to clean up and formalize these definitions for the whole class as students take notes.

I call on students to share out their definitions orally. I write out their definitions and ask for feedback from the class. We revise the Angles Definitions, if necessary, by taking notes in our Angles Note Taker.

*expand content*

*I really like the way you teach the students how to write good definitions using the widget example. | 6 months ago | Reply*

I love this lesson. Next time, I have a few variations and just wanted to share them so that others can consider them as well.

For the Widget portion, I am going to use posters for each group instead of typing them up. Once they come up with their first definition as a group, I'm going to have them write it at the top of a poster. Then I will have the students draw a line at the bottom of the page about 5 inches from the bottom to designate a blank space in which they can write a refined definition in it at the end of the activity. Students will then do a carousel in which they walk around the room and add counterexamples to posters with the goal of finding *all* the holes in each group's definitions to help them refine it. I will either have them do it in groups and have them rotate in order at certain time intervals, or I will have them equally distribute themselves among the posters and individually go around to add counterexamples with the goal of finding two or three total while making sure that each group has a significant number of counter examples. I'm leaning toward the first, but it depends on the size and personality of the class.

The second thing I would change up next time I teach this lesson is I will teach the angles as a jigsaw (https://www.jigsaw.org/). Split the class into as many groups as there are key terms (so 7), and assign one angle type to each group. Have them create their definition using the same process - individual definition, pairs, then group to find counterexamples and refine based on the examples and non-examples. As I walk around, I check their definitions for accuracy and precision and emphasize classification and differentiation. Then they will get into their jigsaw groups to share each definition on the note taker.

| 9 months ago | Reply*Hi Jessica! I'm loving your geometry lessons. Do you by any chance have a blank Angles Note Taker? | 9 months ago | Reply*

*expand comments*

##### Similar Lessons

###### Reasoning About Rigid Motions

*Favorites(1)*

*Resources(18)*

Environment: Rural

###### Proving It

*Favorites(8)*

*Resources(25)*

Environment: Suburban

###### Parallel Lines Challenge Problem

*Favorites(4)*

*Resources(12)*

Environment: Suburban

- UNIT 1: Creating Classroom Culture to Develop the Math Practices
- UNIT 2: Introducing Geometry
- UNIT 3: Transformations
- UNIT 4: Discovering and Proving Angle Relationships
- UNIT 5: Constructions
- UNIT 6: Midterm Exam Review
- UNIT 7: Discovering and Proving Triangle Properties
- UNIT 8: Discovering and Proving Polygon Properties
- UNIT 9: Discovering and Proving Circles Properties
- UNIT 10: Geometric Measurement and Dimension
- UNIT 11: The Pythagorean Theorem
- UNIT 12: Triangle Similarity and Trigonometric Ratios
- UNIT 13: Final Exam Review

- LESSON 1: Definitely, Maybe
- LESSON 2: Who's a Widget? Making Sense of Definitions
- LESSON 3: Recyled Definitions
- LESSON 4: Investigating Special Quadrilaterals
- LESSON 5: Presenting Special Quadrilaterals
- LESSON 6: Special Quadrilateral Clean Up
- LESSON 7: Introducing Geometry Review and Group Test
- LESSON 8: Introducing Geometry Unit Assessment