Tag Archives: questioning

by | September 4, 2024 · 10:33 am

Developing, interpreting, and accessing student thinking

According to Teaching Works Team (2022, May 9), eliciting students’ thinking involves classroom practices that develop, interpret, and access student thinking, such as questioning, discussions, and assessments with the purpose of identifying students’ prior knowledge, understanding, and misconceptions. It is a pedagogical approach where…

“Teachers pose questions that create space for students to share their thinking about specific academic content. They seek to understand student thinking, including novel points of view, new ideas, ways of thinking, or alternative conceptions. Teachers draw out student thinking through carefully chosen questions and tasks and attend closely to what students do and say. They consider and check alternative interpretations of student ideas and methods. Teachers are attentive to how students might hear their questions and to how students communicate their own thinking. Teachers use what they learn about students to guide instructional decisions and to surface ideas that will benefit other students. By eliciting and interpreting student thinking, the teacher positions students as sense-makers and centers their thinking as valuable” (Teaching Works Team, 2022, May 9).

Why is eliciting student thinking essential?

There are many reasons to teachers invest classroom time to elicit students’ thinking:

  • Value students’ ideas, competencies, and ways of seeing the world, changing the focus from the teacher to the students;
  • Understand students’ connections to previous knowledge, making learning meaningful;
  • support students’ deepen understanding of essential concepts in each subject matter, generating the development of high-level skills;

How can teachers elicit student thinking?

The Teaching Works Team (2022, May 9) suggests some steps teachers can take to develop, interpret, elicit, or assess students’ thinking:

  1. “Formulating and posing questions designed to elicit and probe student thinking, with sensitivity to how students might hear or respond to the questions
  2. Listening to and interpreting student responses
  3. Developing additional questions, prompts, and tasks to probe and unpack what students say”

To help you understand the specific features in each one of the steps of this cycle, you can check in the Teaching Works Team document.

Circular Model with Children at the Center where Teachers formulate questions design to elicit and probe student thinking, pose the questions, listen and interpret responses, develop additional questions and make sense of what students know and can do.

Source: Visual representation of eliciting and interpreting student thinking (Teaching Works Team, 2022, May 9).

Designing effective questions

Making questions to students is one of the most common and powerful pedagogical strategies used by teachers during the process of teaching and learning. Read the blog post “Asking Questions that promote deep learning” to learn more about asking effective questions.

Probing as a formative assessment

Another way that teachers can interpret students’ understanding is through formative assessment probes. Tobey and Arline’s books (2014) give many examples of how teachers can build formative assessment probes to identify misconceptions or prior knowledge that conducted students to develop their current way of thinking about specific contents or concepts in a subject area.

The difference between using assessment probes to evaluate learning and to understand students’ thoughts, is that the latter wants to reveal parts of the learning process and not its final results.  In this sense, the goal is to uncover the connections students have made during their learning. Another feature is that these types of formative assessment probes are designed to show students’ understanding of specific (and in general essential) knowledge of a subject. For example, Tobey and Arline (2014c, p. 5-7) claim that teachers should design assessments that allow uncovering students’ misconceptions about “area” and “volume”.

As a consequence of better understanding students’ thinking, teachers may be able to design new learning experiences to deepen or correct students’ conception at this point. Therefore, teachers may be able to improve the process of teaching and learning and deepen students’ understanding.

What does eliciting students’ thinking look like in different content areas?

The Teaching Works Team (2022, May 9) from the teacher education program of the University of Michigan shares some specific tips and classroom resources for different subjects:

More resources:

The course, Eliciting and interpreting, offered by the University of Michigan as part of their Teaching Works Collection of free and openly accessible resources, shares many classroom videos as examples of how to elicit students’ thinking. The videos discuss classroom situations and show how teachers can use these moments to better understand students’ thinking:

References:

Keeley, P., Eberle, F., & Farrin, L. (2005). Formative Assessment Probes: Uncovering Students’ Ideas in Science. Science Scope, 28(4), 18-21. http://pal.lternet.edu/docs/outreach/educators/education_pedagogy_research/assessment_probes_uncovering_student_ideas.pdf

NSTA (2022, May 9).Using Formative Assessment Probes With Real or Virtual Field Trips. https://www.nsta.org/science-and-children/science-and-children-septemberoctober-2020/using-formative-assessment-probes.

Ok Math Teachers (2022, May 9). Formative Assessment Probes. http://okmathteachers.com/formative-assessment-probes/

Teaching Works (2022, May 9). Eliciting and interpreting. The University of Michigan. https://library.teachingworks.org/curriculum-resources/teaching-practices/eliciting-and-interpreting/

Tobey, C., & Arline, C. (2014a). Uncovering student thinking about mathematics in the common core, grades k-2. SAGE Publications, Inc.

Tobey, C., & Arline, C. (2014b). Uncovering student thinking about mathematics in the common core, grades 3-8. SAGE Publications, Inc.

Tobey, C., & Arline, C. (2014c). Uncovering student thinking about mathematics in the common core, grades 6-8. SAGE Publications, Inc.

Tobey, C., & Arline, C. (2014d). Uncovering student thinking about mathematics in the common core, high school. SAGE Publications, Ltd.

Guest post by Peer Tutor Ariane Faria dos Santos (Ph.D. EDCP), Aug. 2022.

Email, RSS Follow

Leave a Comment

Filed under Active Learning, Blog Posts, Inquiry, Not Subject Specific, Open Educational Resources, Planning, Resources, Teaching Strategies

Tagged as , , , ,

by | August 5, 2022 · 7:21 am

Asking questions that promote students’ deep learning

Why does crafting good questions matter?

Creating/designing effective questions for students is one of the most common and powerful pedagogical strategies used by teachers during the process of teaching and learning. Good questions can benefit both teachers and students.

Reinhart (2000) states that questions can…

  • For teachers:
    • support teacher decisions.
    • encourage students’ participation.
    • communicate to students that their thinking is valued.
    • show students initial knowledge.
    • reveal students’ misconceptions.
    • make them learn a new thing about their students.
    • review previous topics.
    • access understanding and curriculum goals.
    • maintain the flow of the learning within the lesson.
    • foster speculation, hypothesis, and idea/opinion forming.
    • create a sense of shared learning and avoid the feel of a ‘lecture’.
    • model higher-order thinking using examples and building on the responses of students.
  • For students:
    • help students articulate their thinking.
    • generate critical thinking and inquiring behaviors.
    • teach students to develop metacognition about a topic.
    • develop students’ ability and repertory to formulate their own questions.
    • improve high-level thinking and deep learning.
    • promote insights and connections between areas.

What makes a question a “good” one?

According to Bloom’s Taxonomy, the process of teaching and learning can develop different levels of thinking in students. In this sense, teachers can incentivize students to use lower or higher cognitive levels of thinking based on the teacher’s pedagogical goals. Therefore, it does not mean that teachers can never use the low levels since a lot of times teachers need to scaffold students’ skills. However, it is essential teachers analyze when, how, and why to use each level.

Source: Vanderbilt University Center for Teaching.

In terms of making questions, while lower levels of questioning access only students’ memory, high-level questions demand that students make connections, bring evidence, and even infer new knowledge.

If you are looking for more examples of questions in different levels or how to use them in your classroom using Bloom’s Taxonomy, there are many resources that you can use:

You can also see in the following video how teacher Melanie Agnew develops higher-level understanding through effective questioning in her High School English classes:

A Sample Guide for planning classroom questioning

Teachers know how many things can happen during a lesson and that is the reason that planning each moment or intervention is essential to promoting students’ engagement and learning. Thinking about the challenges that are to using questions in the classroom, the Center for Innovation in Teaching & Learning of the University of Illinois discusses some steps to successfully make questions in the classroom.

Cotton (1988) also gives some guidelines for classroom questioning:

  • “Incorporate questioning into classroom teaching/learning practices.
  • Ask questions that focus on the salient elements in the lesson; avoid questioning students about extraneous matters.
  • When teaching students factual material, keep up a brisk instructional pace, frequently posing lower cognitive questions.
  • With older and higher ability students, ask questions before (as well as after) material is read and studied.
  • Question younger and lower ability students only after the material have been read and studied.
  • Ask a majority of lower cognitive questions when instructing younger and lower ability students. Structure these questions so that most of them will elicit correct responses.
  • Ask a majority of higher cognitive questions when instructing older and higher ability students.
  • In settings where higher cognitive questions are appropriate, teach students strategies for drawing inferences.
  • Keep wait time to about three seconds when conducting recitations involving a majority of lower cognitive questions.
  • Increase wait time beyond three seconds when asking higher cognitive questions.
  • Be particularly careful to allow generous amounts of wait-time to students perceived as having lower ability.
  • Use redirection and probing as part of classroom questioning and keep these focused on salient elements of students’ responses.
  • Avoid vague or critical responses to student answers during recitations.
  • During recitations, use praise sparingly and make certain it is sincere, credible, and directly connected to the students’ responses” (p.8-9).

What might questioning look like in content areas?

References:

Armstrong, P. (2010). Bloom’s Taxonomy. Vanderbilt University Center for Teaching. Retrieved May 5, 2022, from https://cft.vanderbilt.edu/guides-sub-pages/blooms-taxonomy/.

Cotton, K. (1988). Classroom questioning. School improvement research series5, 1-22.

Reinhart, S. C. (2000). Never say anything a kid can say!. Mathematics teaching in the middle school5(8), 478-483.

Guest post by Peer Tutor Ariane Faria dos Santos (Ph.D. EDCP), May. 2022.

Email, RSS Follow

Leave a Comment

Filed under Active Learning, Assessment, Blog Posts, Curriculum, Inclusive Practices, Inquiry, Language & Lit Learning, Math, Planning, Science, Social Studies, STEAM

Tagged as , , , , ,

by | July 18, 2017 · 12:54 pm

Plickers – Student Response System

whatisit.png

 ‘Plickers’ is a free Student Response or All-Class Response System (SRS), useful for those without access to one-to-one devices in the classroom. All you need are some downloadable and printable class cards, the Plickers app, and one handheld device. The students hold their cards up based on their answer (A, B, C, D), the teacher scans the cards from anywhere in the classroom using a smartphone, tablet or iPad, and the responses are automatically entered.

You and the class can view a graph of responses if you connect your computer to a projector (without your students seeing who provided which individual response). Teachers can ask multiple choice questions or yes/no questions and can save the results of each quiz or poll in their teacher account.

NEW: Plickers now has hybrid and online mode for using plickers face to face, online (or in both modes at once!). The Plickers question editor allows you to include advanced mathematical and scientific equations. In addition, the ability to include images, Gifs, sound and other multimodal features might add a more gameified feel!

 

Why-is-it-relevant-360x82.png

Regular check-ins with your students during instruction aids formative assessment and future planning. Teachers often use thumbs up/down or hands up or fingers to try to gauge understanding or interest but these ‘systems’ can be difficult if not impossible to track. Plickers allows you to save the individual student responses (and you don’t need to ‘give away’ any of your students’ information to do so).

Plickers can even be used in the gym or outdoors (be sure to download the large sized cards if using in large spaces). This youtube video shares how one teacher uses a ‘magnet version of Plickers’ called ‘Plagnets’ in a PHE class.

Many teachers lack access to individual devices needed to use other student response systems (iClickers, Socrative, Menti, Kahoot and others). With Plickers, all you need is an app, one device and printable cards for your students. Some excellent features include (excerpts below from Plickers.com):

1. Scoresheet: “review your students’ results over multiple questions. Use it to spot learning trends with students, identify questions to review from a unit, or even get grading done faster.”

2. Individual Student Reports: On the left panel of Scoresheet, you can print individual student reports or save them as a PDF. The first sheet provides an overall class average and lists the 3 most commonly missed questions for you to save for your records, while the remaining pages contain individual student reports including the question and answer choice selected.
This resource can be used in a second language classroom such as French Immersion, Core French, etc.

More information about features is available   on the Zendesk on the Plickers website.

how-to-get-started-360x80.png

Go to Plickers.com and set up a free teacher account. When you select ‘classes’, you will be prompted to enter student names or aliases which will automatically be assigned to a plicker card number. If you teach multiple classes, you can simply create a new class and add the new students and there’s no need to have a separate set of plickers cards since the app easily lets you toggle between your classes.
Now all you need to do is think of some excellent questions – remember, the questions you ask can make or break an assessment opportunity. Think carefully about your questions. I’d also suggest having a few ‘generic’ questions (i.e. temperature checks, checks for understanding) that you can use at any time regardless of subject or content.
Plickers Quick Start Instructions

videopng-360x61.png

Email, RSS Follow

Leave a Comment

Filed under Not Subject Specific, Physical and Health Education, Resources

Tagged as , , , , , , , , , , , , , , , ,

by | June 27, 2017 · 12:48 pm

Kahoot! : Free Tool for Creating Learning Games !

whatisit.png

Kahoot! is a platform for teachers to create fun, engaging learning games with little technological knowledge/skill needed.

In Kahoot, you can create a series of questions combining with images, videos, diagrams, etc. The number and type of questions fully depend on your needs, and your students can get access to your learning game by simply go to kahoot.it and input a 4-digit number comes with your game.

There are four different types of Kahoots you can create, include:

  1. Quiz: you can use quiz Kahoots to introduce a topic, review what you’ve been teaching in a class, or use the quiz results to offer rewards to some of your students.
  2. Jumble: it’s a type of brand new game that allows students to rearrange the sentences, sorting algebraic equations, or putting historic events in order, etc. To learn more about Jumble Kahoot, click here for more information.
  3. Discussion: you can create Discussion Kahoots to initiate and facilitate a debate
  4. Survey: use this kind of Kahoot to gather opinions, insights or students’ feedback on a specific subject, a special event, workshop, or a class.

Why-is-it-relevant-360x82.png

Teachers need different forms of assessing their student learning and Kahoot! offers a “gamified” version of getting student feedback. It can be used to gather student background knowledge, assess midway through a unit to see if Students are getting the “big idea,” or used as a review.

With Kahoot, students can answer questions on their own devices, while games are displayed on a shared screen. As a teacher, you can pick from the existing games that other teachers have uploaded and even contribute your own games to the community.

Teachers should think carefully about their objectives and utilize the appropriate kinds of questions to help meet those objectives, elicit student understanding and propel learning. Consider varying questions between selection and supply and access the different areas of Bloom’s Taxonomy. This graphic, shared on Flickr by Enokson helps connect Bloom’s with question frames for assessment.

CC image Enokson Flickr Stream

Students might also create their own kahoots to deepen their understanding of the class content.

Kahoot allows you to connect and play in real time with other players in other places (synchronous learning across space!)

*at the time of writing, Kahoot does not seem to allow you to track student responses. If you are interested in trackingindividual responses, consider Plickers or another student response system.

how-to-get-started-360x80.png

  1. Create a teacher account on kahoot.com
    • There are several video tutorials on the site to help you out.
  2. Create a new Kahoot by selecting the type of interactivity you want to create.
  3. Title your Kahoot, add a description, and set up the visibility, language and audience type. Feel free to add a cover image to customize your Kahoot and invite engagement.
  4. Now you can start to work on your questions.

Let’s take Quiz Kahoot as an example, first, input the question to the “Question” area (here, we recommend you to prepare with the questions in another document, that will fasten your Kahoot creation process. Then, set up the time limit for the question, and feel free to add awards points to the question if you are doing a quiz. After this, input the answers and click on the checkmark next to the correct answer(s). Remember to give credit to the resources that you have used/ referred to in your questions.

  1. Now it’s time to save and share your Kahoot!

How to get access:

  1. Go to a web browser
  2. Go to kahoot.it
  3. Enter the game pin that showed on the shared screen
  4. Enter a nickname and start to answer the questions

Kahoot Instructions One Page Handout

videopng-360x61.png

 

 

Email, RSS Follow

1 Comment

Filed under Not Subject Specific, Resources

Tagged as , , , , , , , , , , , , , , , , ,