AP Physics 1

Distance Learning Week 7

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AP Physics 1: AP Exam

With the AP Physics 1 exam on Thursday, I decided not to assign anything so students could focus on reviewing, especially since many of my students were taking other AP exams earlier in the week. The couple of students who checked in after the exam said they felt really good about how it went, which was great to hear.

Physics: Pendulum Assessment

Students worked on applying the equation for the period of a pendulum to some problems and a short summative assessment. Students felt really good about this module; it involved a lot less conceptual knowledge than previous modules and didn’t require students to connect to many old ideas, which I think made it easier. I recently heard from a few students that between being out of school for all of March and not having access to old packets they’d left in their locker, they were having a very difficult time with the fact that the first two modules revisited old concepts, like motion graphs. I think it’s worth putting some thought into how we can do a better job of giving kids resources for going back to old ideas during distance learning.

Chemistry Essentials: Balancing

Students worked on some problems balancing chemical equations. The couple of kids I’ve talked to are now buying in to particle diagrams since they make balancing so much more concrete. Prior to balancing, particle diagrams were the first truly new content we’d done via distance learning, and I had some students who really pushed back on trying to get them down. It’s great to see some of those same students now recognizing the value of that representation.

Distance Learning Week 6

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AP Physics 1: Angular Momentum

This is the last topic students need before the AP Physics 1 exam. Students built the model using a Pivot Interactives activity where a marble is fired at a block. One of the questions I asked is whether the distance between the block’s center of mass and the point where the marble strikes has any impact on whether the momentum of the block-marble system is conserved, and I was surprised to see most of my students said yes. I’ve done this activity in the classroom, and I underestimated the importance of the conversations students have on their way to answering the question. I think if I had explicitly prompted students to use tools like an SOS diagram before answering, they would have been more likely to recognize momentum is conserved.

Physics: Pendulum Equation

Students wrapped up the pendulum lab. At the end of last week, I noticed in a discussion board that a lot of students saw their period vs. length graph as linear, so I made a short video talking about how the intercept affects that interpretation. Their first assignment this week was to finish their data analysis and answer a few questions. Most of my students still said their period vs. length graph was linear, which tells me they either didn’t watch the video or didn’t incorporate that information into their work. For my grad class, I’ve been reading about constructivist learning theories in online science courses, and one of the big challenges is most platforms emphasize results and answers, rather than process. Without feedback on their process, students are likely to resist changing a conclusion they’ve arrived at. I need to think about what it looks like to create the space and the expectation for students to share their process in an online environment.

Chemistry Essentials: Balancing

Students have been gradually catching up on old work thanks to the pause I took last week. There’s still a lot of students who aren’t taking visible steps to get caught up, but I’m glad to see some progress.

This week’s assignment was to use PhET’s balancing chemical reactions sim to get an idea of what it means for a reaction to be balanced. I usually start balancing with this activity, and it was really nice to have something that translated so easily to an online environment. Only a few students have completed the assignment so far, but those who have are showing a solid conceptual understanding of what it means for a reaction to be balanced.

Distance Learning Week 5

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AP Physics 1: Unbalanced Torque

Students used Pivot Interactives to find a relationship between torque and angular acceleration. The activity has several different bicycle wheels, which lead to some good discussion on the forum as students first compared their results to someone with the same wheel, then compared results to someone with a different wheel.

In both the questions I got about the activity and in the grading I was doing this week, I saw a lot of students struggling with the distinction between different terms related to gravity. That’s been an on-going challenge this year that I think is related to having some students who use a lot of verbal shortcuts. We’ve made a lot of progress on that front this year, and a lot of students were joining me in pushing back whenever someone used imprecise language. I think with out that consistent feedback on language, some students are falling back to old habits. I’m giving feedback on language in students’ written work and sent out a vocab review to all of my students, but am thinking about other options.

Physics: Pendulums

Students used Pivot Interactives to collect data we’ll use to get the equation for the period of a pendulum. This week, we had students collect data, then post their graphs and answers to a few questions to a forum. Next week, they’ll start by linearizing the period vs. length graph. Based on the forum, I’m glad we split the lab up. In the questions, students recognized angle and mass don’t affect the period and correctly explained why the period vs. length graph should have a zero intercept. However, most students described their period vs. length graphs as linear in spite of the large intercepts. Using the discussion and splitting up the lab gave me a chance to catch the issue and record a short video before students started their linearization. It’s been hard to be responsive when I have almost no contact with my students right now, so it felt good to have this opportunity to shift my instruction based on students’ current thinking.

Chemistry Essentials: Pressing Pause

The representing reactions summative was due on Tuesday, and only two of my students had turned in work for the module. Rather than sticking to my plan to start balancing, I pushed everything back so that students have an extra week to catch up before their next assignment is due. I also spread out the remaining work in an effort to reduce the workload. We’re shooting for each class to have around 90 min of work per week, so I’ve been assigning what would take around 30 to 45 min in the classroom each week, but the students I’ve heard from are spending around 3 hours a week on chem. I’ve only gotten work or heard from a few kids since Tuesday, but even if just a few more kids get a credit required for graduation as a result of this week’s adjustments, I’m happy with my decision.

Distance Learning Week 4

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Based on how we’re being encouraged to approach distance learning, I’ve been posting at least one full week of material for students at once. This week, the mental switching it takes to grade last week’s work, answer questions about this week’s work, and plan next week’s work, especially with three different courses, started to get to me. I’m working on planning out my work tasks better so that I’m not switching gears quite as often.

Thursday and Friday were especially tough this week. Governor Walz announced on Thursday that schools will be continuing distance learning through the end of the school year. While it is absolutely the right call and we’ve been expecting it for a while, it was tough for staff and students to hear for sure that we won’t be back together this year.

AP Physics 1: Balanced Torques

Students used PhET’s Balancing Act simulation to develop rules that lead into balanced torque. Based on the discussion board, students were pretty successful at getting the ideas I wanted them to get. They also seemed to have a lot of success applying their rules to the problems.

I also saw signs of some fatigue setting in among my students. Some kids were missing written information I think they would normally catch and many are quicker to get frustrated than I’m used to. Based on a survey I gave my students to see about how many hours per week they are spending on school, it is no wonder they are getting worn out. While students consistently said my class has a relatively light workload, I need to do what I can to keep it light and even reduce it. It’s hard when I still have content to cover and the AP exam is close, but my students’ well-being is more important than a test score.

Physics: Pendulum Representations

Students did some video analysis of a pendulum to start thinking about motion graphs and other representations, including free-body diagrams and energy bar charts, for simple harmonic motion. Students struggled to make some of the connections I usually ask for, which I think is a result of most kids working independently rather than having the opportunity to talk things over with each other.

I’m seeing fewer signs of strain from my physics students. Most are putting in 1-2 hours per week on Physics, which they consider reasonable. I’m also hearing from students that they really appreciate having deadlines every few days, rather than having everything due on Friday as a lot of classes are doing, since it helps them spread out their work.

Chemistry Essentials: Representing Reactions

This week, we continued working on translating between words, formulas, and particle diagrams for complete chemical reactions. The students I’ve talked to are making good connections with what they learned in the formula writing module and mostly need confidence and reassurance rather than significant help with the content.

This is the class where I’m feeling the absence of face-to-face instruction the most. About half of my students haven’t done anything on the Schoology site or responded to my emails or phone calls, which is tough to see. I had a conversation with the para who supports the course this week, and we see two major challenges. First, we see a lot of students who get off-task when they are confused or stuck. In the face-to-face classroom, we can not only redirect them, but sit down with the student to work through their questions. Based on what we’ve heard from a few parents, we think some students are getting stuck in this avoidance. Second, I find I have to earn the trust of students in this course before they are comfortable asking me questions, but it’s been tough to earn that trust when we’ve never met. I’ve had some success texting with kids since it is a very low-stakes interaction, but teaching chemistry by text message is hard. The good news is the para has good relationships with many of the kids struggling and is very comfortable with the curriculum for this class, so she’s been able to step in with some kids too nervous to ask me questions.

Distance Learning Week 3

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I think my students and I are getting into routines and things are starting to run smoother.

AP Physics 1: Central Net Force

Students worked on central net force and universal gravitation this week. We moved through the content fairly quickly since the AP exam is looming. On the summative assessment, a lot of students talked about a force pushing outward on objects moving along a circular path, which is a common preconception. It’s frustrating to know exactly what questions and discussion moves I would use to address this in a face-to-face classroom, but to feel like my options are limited in an asynchronous setting. With the remaining topics, I need to think about how I can proactively get students thinking in ways that challenge preconceptions rather than relying on my ability to react in the moment.

Physics: Pendulum Representations

Students did some video analysis of a pendulum to start thinking about the motion graphs for a pendulum. In the discussion board where students shared their graphs, I also had students respond to some questions about similarities and differences between the posted graphs. This seemed to help students get past the superficial differences in graphs and focus on the major concepts shown by the graphs.

Chemistry Essentials: Formula Writing

This week wrapped up formula writing. On the summative assessment, a few students included a comment along the lines that they’d never learned to draw particle diagrams. Checking in with those kids, they are relying on the Schoology calendar, which shows assignments that are due, rather than visiting the course page where I’ve posted some instructional videos and other resources. I’m not interested in using an assignment to verify students use those resources, so need to think about other ways I can make sure students are aware of materials on the course page. In my email for Monday morning, I added a reminder to use the resources in the folder for each topic. I’ve been putting together an overview of all the tasks for each learning target, and may start including that in the weekly email.

Distance Learning Week 2

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AP Physics 1: Video Summative

Students started the week by wrapping up angular motion graphs. I took a page from Andy Rundquist and Rhett Allain by doing video assessments. I posted a goal-less problem, and each student had to record a short video explaining their work. I really enjoyed watching the videos, especially because a lot of students talked about things that almost tripped them up, but a lot of students had technical issues submitting their work. For the next assessment, I may give students the option of doing a video or a purely written version.

Physics: Projectile Motion Problems

Students worked some problems representing projectile motion, then did a video summative assessment. I tried designating part of my office hours specifically for discussing the problems, and I had a few students take me up on it. It was very different from talking in person, but the students who came felt like they got a lot out of it. Since I’m doing office hours anyway, that will be a pretty easy routine to continue.

Chemistry Essentials: Formula Writing

Students worked on translating between chemical formulas, names, and particle diagrams. Students learned how to go between names and formulas in the first half of the course, but a lot of my students took the first half trimester 1 and haven’t had chemistry since November, so it was worth some review. Plus, the particle diagrams are new to all of my students. Going by their work and the students I’ve had a chance to talk to, a lot of them needed this week, but have now gotten the hang of these representations.

The biggest issue was helping students figure out how to submit their work through Schoology. Many of them rarely visited Schoology before we switched to distance learning, so this is a lot to take in. I decided that I need to hold the line on getting students to submit assignments on Schoology rather than emailing their work to me to keep myself from getting overwhelmed. Fortunately, our digital learning coach has been putting together videos and other resources I can send along and the para supporting the course is willing to walk students through submitting their work.

Distance Learning Week 1

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After a three-week break, we started distance learning this week. Schoology had some outages and other issues from the increase in traffic that made things trickier. My district asked teachers to emphasize asynchronous instruction, which made the outages easier to work around. In spite of the challenges, it was good to connect with students again.

AP Physics 1: Circular Motion

My classes still need to do circular motion and rotation before the AP exam. I started this week with circular motion, emphasizing motion graphs. Since we’ve made a lot of use of linear motion graphs this year, students were quick to grasp the concepts and I think the relatively easy content helped students ease in to distance learning. Students collected data in Pivot Interactives, then posted their graphs to a discussion board for a virtual version of a “board meeting”. I didn’t have much interaction with my students since they didn’t have many questions, but, based on their work, they were able to get the concepts I was after and made sense of the graphs in the discussion board.

Physics: Projectile Motion Graphs

We usually start trimester 3 with projectile motion, and decided to stick with that plan since, like AP, working with velocity vs. time graphs let students ease in to distance learning with relatively familiar content. This also gave us the opportunity to have students collect their own data; they recorded their own videos of projectiles, then used Vernier Video Analysis to get the graphs. Like AP, they posted their graphs to a discussion board before answering some questions interpreting the graphs.

Students were consistently figuring out what I wanted them to, but struggled to feel confident in their answers, so I answered a lot of emails and had several video chats with students to work through questions. I also got some useful feedback from students. One commented that looking at the graphs on the discussion board wasn’t helpful because everyone’s graphs seemed really different, even though they all looked similar to me. I think some questions about the discussion board to steer students to key features would have been useful. In AP, I asked students to first post their graphs, then make a second post commenting on similarities and differences between their peer’s graphs, which I think would have been useful in this class, too.

A student also told me that she misses the collaboration and group work from our face-to-face class, because she found that extremely valuable for learning physics. Teachers in my building are holding office hours each week, and I am going to try designating a chunk of my office hours for student collaboration on a specific task. I’m also looking for ideas for asynchronous collaboration strategies, and would love to hear any!

Chemistry Essentials: Introductions

This is the course I’m the most worried about. It is the lowest (I hate that term) of our four levels of chemistry, so many of the students have not been well-served by our school. I find building relationships with students in this course is even more critical than in my physics courses. The trick is the start of the tri coincided with the start of distance learning, so I haven’t had the chance to meet any of my students face-to-face. I decided to make this week about connecting with students and helping them find their way around the course site. Their biggest assignment was to use the appointment slots in my Google Calendar to schedule an informal, one-on-one chat. I found it really valuable to hear about the things my students care about and to talk through their fears about distance learning. I’m hoping this will lower the threshold for them to come to office hours or make an appointment when they have a question about chemistry.

Preparing for Distance Learning

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My district was on spring break March 9-13. Near the end of our break, Minnesota’s governor announced Minnesota schools would suspend instruction until March 30 to give staff time to prepare for distance learning. Now that I’m a week in on planning, I wanted to take a step back from the details to reflect on what my priorities will be in the coming weeks.

Students Doing Sense-Making

On our first day of suspended instruction, my administration directed us to identify the most critical 30% to 50% of our curriculum for the remaining school year. I have no idea how to pick the most important content from my courses, especially since almost none of my students will take another high school science course. But, under normal circumstances, I’m quick to say opportunities for students to engage in reasoning and science practices are the most important part of my course, and I can’t think of any reason for that to change. My first question with any decision right now is how I can make sure students have opportunities for sense-making.

In Physics, this lead my PLC to decide to focus topics where students can collect their own data, so we’ll be starting with projectile motion, then shifting gears to work on pendulums. We’ll be making a lot of use of Vernier Video Analysis, though we are planning to do a similar pendulum lab to what we’d do in class. In AP Physics 1 and Chemistry Essentials, I’ll probably be making a lot of use of Pivot Interactives to collect data.

Teachers in my district are being asked to avoid synchronous instruction, so I’ll be making a lot of use of discussion forums to give students a chance to share their ideas. I think my general structure will be collect some data, post the results in a forum, then do a worksheet with some guided questions to get to big ideas from the class results.

Relationships Still Matter

A sense of relationships and a sense of community always matter, and I’m only expecting them to become more important as students are relatively isolated at home. For every class, I’ve created an off-topic discussion board to give students space to connect with others in their class. I’m also trying to create a sense of presence by recording a lot of videos for my classes; I’m planning to record one each week with an overview of what I’m asking students to complete.

I’m also trying to make sure students see me as accessible. We’re being asked to hold “office hours”. My plan is to have a Schoology conference open on my computer that any students who wants to can join. I’m also using the appointment slots feature on Google Calendar to make it easy for students to request a chat outside of my office hours.

The students in AP Physics 1 and most of my Physics students have been with me all year, but my Chemistry Essentials students are all new to me. I decided the first few days won’t have any content, and will simply be about connecting. In a Twitter conversation, Carol Braun suggested doing a short video chat with each student, so I’ve decided that will be my biggest priority for the first week of Chemistry Essentials.

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Students are People

It seems safe to assume that whether or not students say anything, many of them are dealing with challenges beyond school, working around barriers to accessing online coursework, or focusing on other priorities right now. While this is always true, I’m assuming it applies to a much larger percentage of my students than under typical circumstances. I can’t remove those issues, but I can be flexible with students. As I plan, I’m avoiding synchronous requirements and posting as much as possible up front so students can access materials when it works for them. Once my district sets expectations for grading, I need to take some time to figure out how I can apply those expectations in the most humane way possible. Once instruction starts, I also need to keep this in mind during every interaction with a student or their family.

Managing My Needs

I can’t be the teacher my students need if I’m not taking care of both my physical and mental health. A lot of my first week was figuring out how I’m going to set boundaries. At the best of times, teaching is the kind of job that can become all-encompassing and trying to fundamentally change how we do this job doesn’t help. Usually, I don’t bring work home with me. Since that’s not an option right now, I’ve made myself a schedule and even gone so far as to set alarms on my phone to make sure I’m blocking out time for non-work parts of my life.

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I’m fortunate to work in a district where the prevalent attitude is that we should work together on this seismic shift, which is helping reduce my workload. My building has two of us that teach Physics and we usually plan together, so we linked our courses in Schoology so we are collaboratively managing a single course. While I’m the only AP Physics 1 and Chemistry Essentials teacher in my building, I’ve been working with teachers from the other high school in my district to share materials and ideas.

Along with trying to keep work from overwhelming me, I’ve been figuring out how to manage my physical health. The first day, I didn’t drink enough and I didn’t move around enough, and I paid for it. Having a schedule has been helping me make sure I take stretch breaks and track how much I’m drinking. I’m also glad I took my physical therapist’s advice a few months ago and got a laptop stand and wireless keyboard; they’ve been helping me sit straight up when I’m working.

When I was student teaching, my mentor teacher liked to say the school year is a marathon, not a sprint and that feels more true than ever. Especially with all the uncertainty in what the coming weeks and months will bring, taking care of ourselves is a crucial piece of taking care of our students.

Days 112-114: Tri 2 Reflections

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This was a strange week. Monday we had regular classes, Tuesday we had a professional development day since several of our schools were used for primary elections, then Wednesday and Thursday were final exams. Physics did a traditional written test, followed by a lab practical and AP Physics took a practice exam. While students took those exams, I took some time to reflect on the year so far.

AP Physics 1

This trimester, I’ve had a lot of students working on other things during class. I think part of the issue is I’ve been doing less whole-class discussion on problems this year, which has lead to less sense of collective responsibility. Going in to trimester 3, I need to think about how I can do a better job of making it clear that everyone has something they can contribute and everyone should contribute.

I made some changes to my circuits unit this year. In the past, I’ve relied almost entirely on PhET’s circuit construction kit. This year, in response to some findings in my PhD research so far, I combined the simulation with some real world labs, which paid off with my students feeling more confident and having higher achievement. I tend to rely heavily on Pivot Interactives for circular motion and rotation, which we’ll be starting right after spring break, but I need to make sure I’m connecting those computer-based labs to things my students can touch and manipulate directly.

Physics

One of the things I’ve done this trimester that’s had the biggest impact on whole-class discussions has been giving students time in small groups to have preliminary discussions for most class discussions. I’ve done that prior to board meetings for a while, but doing that before problems, as well, has made students much more comfortable speaking up. That time also needs to be explicit; if I don’t set aside specific time for preliminary discussions, most students won’t initiate those discussions in their groups. Especially at the start of the trimester when some of the students are new to me, I need to make sure I continue to give students that time.

Days 107-111: Final Review

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Next week are trimester 2 final exams, so after wrapping up our last topic of the term, both my courses started reviewing for the final exam.

AP Physics 1: Model Summaries & AP Classroom

I’m generally skeptical of typical final review activities, but I really like starting with model summaries. I gave each group one of the major models from so far this year and asked them to prepare a whiteboard with the key diagrams, equations, and other representations for their model. A lot of groups found it helpful to start by coming up with a scenario where the model would be useful. Students really responded to the idea that a model is a toolkit, and the model summary is a reminder of the tools in that toolkit.

After the model summaries, I had students go on AP Classroom, where I’d unlocked multiple choice problems from each of the topics we’ve done so far and asked students to pick a topic to complete. Students liked choosing what they wanted to review, but really wanted a chance to whiteboard and discuss the problems. We ran out of time for any whiteboarding, but I’m glad that my students see the value in discussion.

Physics: Final Review Packet

Monday through Thursday we worked on wrapping up energy, then I handed out a fairly standard final review packet. While working through the packet is helping students to feel more confident goin g in to the final, it reminds me that we have a lot of room for improvement in spiraling content and helping students draw connections between models in this course. That said, students had a much easier time with some of the old problems than in past years, which suggests we’re moving in the right direction.