In our project, we organized our work this past year around the use of instructional routines (née instructional activities) with teachers. Our curriculum work has been largely focused on instructional routines, our professional development activities have been focused on instructional routines, our school-based work in some cases has shifted to focus on supporting teams using instructional routines together. Our objective this last year has been to develop teachers in teaching ambitiously through the use of instructional routines that embody this kind of teaching.

Instructional [routines] are tasks enacted in classrooms that structure the relationship between the teacher and the students around content in ways that consistently maintain high expectations of student learning while adapting to the contingencies of particular instructional interactions.

Here is an example of a task intended to be used in an instructional routine called Contemplate then Calculate.

The instructional routine Contemplate then Calculate has (roughly) these five steps:

1. Launch: The teacher launches the routine to let students know what, why, and how the class will be proceeding.

2. Noticings: The teacher flashes an images for kids and asks kids to describe what they noticed in the image, share this with a partner, and then records some noticings for the whole room to use.

3. Partner work: The teachers reshares the image with a problem task associated with it, then kids work with a partner to solve the problem given.

4. Share: Selected students share their strategy with the whole class while the teacher annotates the strategy and uses talk moves like restating and probing questions to ensure that everyone understands the ideas being presented.

5. Meta-reflection: Students write reflections based on choosing from prompts given to them by the teacher.

The high level goals of Contemplate then Calculate are to support students in surfacing and naming mathematical structure, more broadly in pausing to think about the mathematics present in a task before attempting a solution strategy, and even more broadly in learning from other students’ different strategies for solving the same problem. A critical aspect of this and other instructional routines is that they embody a routine in which one makes teaching decisions, rather than scripting out all of the work a teacher is to do with her students.

This year we noticed a number of benefits to using instructional routines that lead us to plan continuing using them next year as well.

**1.** Instructional routines allow teachers to communicate about classroom practice with each other using a common language and common understanding of what kinds of instructional strategies are being implemented.

Usually conversations about classroom practice are extremely difficult because each teacher’s context is so different and because teachers visit each other so infrequently. My experience suggests that these conversations often devolve from talking about specific decisions that were made and the rationales behind those decisions and into discussions about mathematical topics and what order they should be taught. With a common instructional routine, teachers’ conversations can shift to a more granular level of discussion since so much more of the context can be assumed.

**2.** Instructional routines can support teachers and students in having access to high cognitive demand tasks by reducing the cognitive demand needed to attend to “what am I doing next”. Since the activity is routine and well-defined, the steps to doing the activity can fade into the background over time for both teachers and students. This allows more of the cognitive load for teachers and students to be potentially focused on making sense of each others’ reasoning and the mathematics of the task at hand.

Teachers already have many routines they use in their classrooms but those routines may or may not be used by other teachers (see point #1) or they may have too many different routines that they enact for each type of mathematical task they use. In order for the cognitive benefits of an instructional routine to occur, the instructional routines must in fact become routine.

**3.** Instructional routines have allowed our curriculum team to rapidly develop mathematical tasks to fit into these instructional routines because we don’t need to communicate the routine separately for every task. The routine stays the same (but see point #4) over time while different tasks are enacted within the routine.

**4.** Since an instructional routine keeps much of the classroom interaction the same, it becomes possible for individual teachers or groups of teachers to iterate on their practice more rapidly. If every day a teacher has to re-invent her practice, then it becomes more difficult to figure out what teaching strategies work in her context, when those teaching strategies work, and why she might choose a different teaching strategy.

I remember my first year teaching. I was unprepared. I didn’t know how to structure lessons. Each day I was floundering. I kept experimenting and trying different activities, different ways of communicating with students, etc… I would have benefited from more support in planning lessons.Note that this benefit supports newer and experienced teachers differently. A new teacher needs a starting place to iterate on their practice from. An experienced teacher who wants to refine her practice needs a tool with which to do so.

**5.** In professional development settings, we and teachers in our project can model teaching strategies more easily (this is really a combination of point #1 and #4). Since the routine is well-established, when someone does something different within the routine when modeling it with a group of teachers, it becomes easier to focus on the something different.

For example, we used the routine Contemplate then Calculate to model instructional moves intended to facilitate student discussions. We then, as a group, unpacked just that aspect of the routine. This was enabled because instead of everyone participating having to keep all of the teaching occurring in one’s head at one time, the routine aspects of the teaching could be ignored to focus on the non-routine aspects for that day.

**6.** The instructional routines all include built in opportunities for formative assessment and responsive teaching. We struggled to find ways to staple formative assessment practices on top of existing teaching and mostly failed. Instead the different aspects of formative assessment (as described by Dylan Wiliam) are embedded within an instructional routines, which as it turns out, makes them easier to learn how to use.

There are other more mathematical benefits of these instructional routines, but those depend largely on the specific routine being used.

We intend to continue supporting the two instructional routines we used this year (Contemplate then Calculate and Connecting Representations) and to add one or two more routines to support different mathematical goals teachers may have, because we have seen each of the benefits of these routines listed above play out in various ways across our project.

## Howard Phillips says:

Looking at the grey squares “problem” it seems to me that more mathematical activity would result from just presenting the pictures and asking “What do you notice?”. various things will arise, some mathematically relevant, some not so. The teacher of course has had to have given some thought to what might be suggested, how to encourage pursuit of the more “mathematical” aspects, and work away from sideliners. The end result may not be as predictable as that which follows a statement of a specific problem, but it’s all going to be a damn sight more interesting for the kids.

I think that your specification of “how long for this, how long for that”, found in the linked paper, it a bit too EngageNY-ish.

March 18, 2016 — 1:51 pm

## David Wees says:

Hi Howard,

In contrast to the Engage NY materials, the instructional routines are:

1. Routine.

2. Really engaging.

There is a built in assumption to your comment which is worth addressing: If someone offers significant direction in how to use a particular task, it follows that experience will not be interesting for students. I do not think this is always true.

Another major difference between the instructional routines and Engage NY is that we have not attempted to script out every move a teacher makes for every aspect of their lesson. Instead we offer tasks with suggestions on how to enact these tasks that teachers choose whether or not they implement, when they implement them, and what decisions within the framework they need to make in advance of using the resource.

Now if you do not believe that these routines are useful for teachers, then I think you do not buy the premise of this post – that there are benefits (as listed above).

March 18, 2016 — 3:40 pm

## Howard Phillips says:

From all I have read about professional development sessions I see that you have a real hard job on your hands. I understand that you do not want to be prescriptive, but at the same time must give the participants something to hang onto. Many of them are starting from a very narrow and fixed view of math teaching, and a very vague understanding of mathematics. Do you do follow-up investigations? If only a few are strated on the “path to enlightenment” the that is “success”.

Sorry about the EngageNY bit, it was a little naughty!

March 18, 2016 — 7:30 pm

## Howard Phillips says:

Please excuse the speling eror, I sometimes don’t see the red line.

March 18, 2016 — 7:33 pm

## Megan Schmidt says:

Hi David,

My remedial Alg 2 class has been using the CtC and CR activities and I’m seeing a lot more sense-making in the structure of quadratic patterns. They seem to really grasp the 2 dimensional growth and the connection to the formula based on the structure. I really love them. Thanks for all you guys do up there.

March 19, 2016 — 3:22 am

## David Wees says:

That’s great! Will you be at TMC in the summer? Maybe we can chat about your experiences using the instructional activities then?

March 19, 2016 — 11:14 pm

## geonz says:

This is the kind of thing that I learned to do w/ reading and writing at THe NEw Community School. I’m not a structured soul by nature but I also know I’m not my students, as well as the difference between being the expert and being the learner. They could focus so much better on the actual task at hand when the structure of the assignment was already established.

March 28, 2016 — 9:31 pm

## David Wees says:

Yeah, we did notice that in the English Language Arts (and other language classrooms) there are lots of instructional routines already in wide-spread use and so this helped us see a need for instructional routines in the mathematics classroom. And I completely agree with this point, “

They could focus so much better on the actual task at hand when the structure of the assignment was already established” and as I note above this requires the “structure of the assignment” be routine.March 29, 2016 — 10:11 am

## Ms.NMoffett says:

How are Instructional routines different from Problem Solving strategies?

January 17, 2018 — 1:03 pm

## David Wees says:

Instructional routines describe a way of a teacher interacting with students with some content (perhaps a math problem). In the instructional routine Contemplate then Calculate, for example, the routine has these five steps:

1. Launch: The teacher launches the routine to let students know what, why, and how the class will be proceeding,

2. Noticings: The teacher flashes an images for kids and asks kids to describe what they noticed in the image,

3. Partner work: The teachers reshares the image with a problem task associated with it, then kids work with a partner to solve the problem given.

4. Share: Selected students share their strategy with the whole class while the teacher annotates the strategy and uses talk moves like restating and probing questions to ensure that everyone understands the ideas being presented.

5. Meta-reflection: Students write reflections based on choosing from prompts given to them by the teacher.

In contrast, problem solving strategies are mostly what people use to solve problems and in this routine, they may only be used during step 3 and then shared during step 4. The problem solving strategies depend on the task given to students but may be used within a variety of different instructional routines.

January 17, 2018 — 3:17 pm