Motion

Day 20: Force Diagrams, v-t Graphs, & Diffusion

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AP Physics: Force Diagrams

We went over the force problems from last week. I skipped having them whiteboard all of the trig and algebra, and just had students whiteboard the diagrams and some selected reasoning. There was some good debate on whether the normal force should equal gravity on some of the problems, and the vector addition diagrams were a great tool for reasoning that through.

vad wb

Physics: v-t Graphs

Students whiteboarded their solutions to Friday’s constant velocity problems. The problems were a lot more challenging than I expected. One big struggle for a lot of groups was making sense of what the problem was asking. The other big struggle was connecting strategies and ideas from one problem to the next one. For example, after using the area of a velocity vs. time graph to find displacement on the first problem, many students struggled to find the displacement from a v-t graph on the second problem. This tells me students were following a procedure without understanding why, so I need to think about how to step back and get that idea across.

vt wb

Chemistry Essentials: Diffusion

Students whiteboarded particle diagrams for perfume dispersing through the classroom and food coloring dispersing through water. In both cases, students made a lot of great observations prior to whiteboarding and had a lot of good foundation on their whiteboards.

diffusion.jpg

Day 19: Plickers, Dueling Buggies, & Quiz

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AP Physics: Plickers

After a quiz, I introduced students to Plickers. One piece of feedback I got from students last year was that they would have liked to practice multiple choice earlier in the year so, this year, I’m planning to spend part of each Friday on that. I have students read the question silently and vote on an answer, then vote again after talking to their peers. My 4th hour had some great, spirited discussion and was actually disappointed when I told them it was time to put the cards away and head to lunch.

plicker

Physics: Dueling Buggies

We wrapped up the dueling buggies lab practical. For the rear end collision, most of my groups got a crash position behind where both of the buggies started, so I paused the class to look at what results would make sense. I’m debating whether its worth having that conversation sooner next year, or if it is better to wait until there is a need. This fits with a pattern I’ve noticed this year where more students than usual are struggling to connect their graphs and math to what is physically happening.

I couldn’t get a volunteer to release the second buggy or to film the collisions for me, so here’s a video from a couple years ago.

 

Chemistry Essentials: Quiz

Students spent most of the hour on their density quiz. While I haven’t graded them yet, there were some stark differences in how students did on the quiz. Several students immediately made a connection to some of the worksheets and labs we’d done and found the quiz extremely easy. Others thought the quiz was completely unfamiliar and really struggled. I need to keep working on helping students to make connections across different days, as well as supporting my students in developing as independent thinkers.

 

Day 18: Trig It Out, Dueling Buggies, & Density Problems

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AP Physics: Force Problems

Students worked on using vector addition diagrams to solve balanced force problems (one of many things I learned from Kelly O’Shea). I really like that while many of my students still ended up using a version of components, they see where the components come from. Once students set up their vector addition diagrams, the slogan for the day was “Trig it out!”, a line from last year’s students.

Physics: Dueling Buggies

Students worked on the Modeling Instruction lab practical to predict where two buggies will collide. I didn’t give quite enough instruction to my 1st hour, but once I suggested they try drawing some representations and play with them, they started making some progress.

One of my goals this year is to help students value ways of being successful in class besides knowing the answer quickly, so as part of the lab practical I gave them a list of skills based on similar lists from Kelly O’Shea and Ilana Horn, then asked them to identify at least one example for each group member where they demonstrated one of those skills. I’m looking forward to reading their responses.

dueling buggy.jpg

Chemistry Essentials: Density Problems

Students worked on some density calculations. Some students really struggled with the algebra, so I’m trying to decide whether that really needs to be in the course. Most are getting to a point where they are successful with the graph, and I think that is more valuable in the long term than using the equation.

I also handed back the first quiz; most students performed about how I expected, but I was surprised at how many students had underestimated how they did and were genuinely excited about their score. Several confirmed with me (multiple times, in one case) that they got to keep their quiz so they could show their parents. I need to work on reinforcing the connections between our day-to-day work and the assessments so that more students will see that kind of success.

Day 16: Systems, v-t Graphs, & Good Questions

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AP Physics: Systems

Students did the mistakes game (pretty much my default mode of whiteboarding if you can’t tell yet) for a free-body diagram worksheet. Both classes had some great discussion about whether there should be an upward force for a projectile while it is in the air and it helped a lot to frame forces as interactions. I ended up wishing I’d taken some time to revisit Newton’s 1st Law from the momentum unit since some students were having trouble with the idea that forces are balanced on an object rising with a constant velocity. I’ll probably spend some time reinforcing that tomorrow.

I also took this opportunity to introduce students to the idea of defining their system. Both sections had debates about different problems where they were trying to decide what was causing an upward force. That lead nicely into discussing how we could define our system to make each possible answer correct.

fbd mistake.jpg

Physics: v-t Graphs

Students worked on sketching velocity vs. time graphs based on motion maps and position vs. time graphs. The calculus class started v-t graphs at the end of last week, so I had some students who not only finished quickly, but were eager to exercise their new knowledge by helping their peers, which was great. I had a lot of students who struggled with the idea that the horizontal axis on the graph represents moving forward in time; I want to try getting out the motion detectors tomorrow so they can watch the graph form in real-time to see if that helps.

Chemistry Essentials: Good Questions

We spent some time working on asking good questions. I prepped a whiteboard with an intentional mistake, and asked students about what they saw. Some were able to use the question stems to immediately get to a good question. When a student had an observation or an idea of where to steer me next, I had them share it and we formed a question as a class. Then, we went back to the remaining student whiteboards and were much more successful and focused than yesterday.

Day 15: Rubber Bands & Mistakes Game

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AP Physics: Rubber Bands

Both sections worked on drawing interaction diagrams and free-body diagrams, but one of my sections is about 30 minutes ahead and was able to get the problems mostly done last week. That section had asked about what the graph looks like when a spring is overstretched and Hooke’s Law breaks down, so we got out some rubber bands to try. I told students I hadn’t had a chance to collect my own data, so we’d be finding out together, and they seemed on board with that.

rubber band

Physics: CVPM Mistakes Game

Students played Kelly O’Shea’s mistakes game with Friday’s worksheet on translating between different representations of constant velocity. I really like this worksheet for introducing the mistakes game since its easy to direct students towards meaningful mistakes. I usually talk about some stems for good questions, but this time, I also projected them, which seemed to help. When the discussion lagged, I used Post-It notes to feed questions to students, but another student would usually ask the question I had in mind before I could finish writing, which is a good reminder to give them time.

phys mistake

Chemistry Essentials: Density Mistakes Game

This class played the mistakes game with Friday’s density problems. I also used the question stems with them, but they struggled a lot more with asking good questions. I think they need a little more scaffolding; I might put together a whiteboard and have students prep questions in their groups. A lot of students fell back into some of the behaviors I’ve been trying to push back against with the work on norms, and I think some of that was a result of some students feeling confused and frustrated with the discussion.

chem mistake

Day 14: Friction, Multiple Representations, & Density

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Today is homecoming, so classes are shot and students are excited.

AP Physics: Friction

I decided not to take the time for a lab on friction, so I collected some data with a force sensor and motion detector and asked students for observations. I used the motion detector to help connect what the force was doing to what we know about momentum so far. Students pretty readily recognized the force of friction changed when the block when from being at rest to being in motion.

Afterwards, students took their second quiz. Last year, I had very few students complete retakes, so this year I’m giving them at least two in-class attempts at each learning target to try and normalize reassessment. So far, I’m hearing a lot of talk from students that suggests they are much more comfortable with reassessing than last year’s students.

friction take 1

Physics: Multiple Representations

Students worked on a Modeling worksheet to practice translating between position vs. time graphs, motion maps, and descriptions of motion. Overall, students did well and I think this helped reinforce the value of what came out of yesterday’s discussion. In the class where I see the most struggles with math skills, several groups chose to shuffle themselves today, and ended up needing much less support from me than usual. For the first time, however, I had some students who made graphs showing multiple positions for a single point in time. I need to probe their thinking a little more and think about how to address that when we go over the problems on Monday.

Chemistry Essentials: Density

Students worked on a Modeling worksheet connecting particle diagrams and density. I got a little nervous when a very large group gathered around the para who assists the class, but they had some good discussions. I do need to think about how that will impact whiteboarding on Monday when 1/3 of the class worked as part of the same group.

Day 13: Board Meeting, Motion Maps, & Density

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AP Physics: Board Meeting

We whiteboarded the spring lab from yesterday. In both my sections, students had great observations and did a nice job of starting to talk about what the graphs mean with out too much prodding. There was a lot of great discussion about the limits of this model, as we tried to figure out whether the intercept on these graphs should be zero. One student also raised the point that if you overstretch a spring, it bounces back, so we was wondering if the linear relationship would still work. I might have them try it with rubber bands.

hooke wb.jpg

Physics: Motion Maps

We whiteboarded the buggy lab. I had a lot of trouble keeping students engaged in the large group discussion, I think partly because students didn’t use the ideas we developed in board meetings during the first unit, setting the tone that board meetings aren’t important. One thing that helped a lot was a student who was extremely willing to ask questions about what groups had done when their graphs were different from her group’s, which pulled a lot of students back into the discussion.

After the board meeting, I got out my Fridge Rover, a magnetic wind-up toy that maintains a pretty constant velocity, to introduce motion maps. I made marks on the board showing the rover’s position at regular time intervals, which drives home the connections between motion maps and the buggy lab students just did.

motion map

Chemistry Essentials: Density

Students found a relationship between mass and volume for water, which I used to introduce density. This was one of the times I really liked particle diagrams, since it made density much more concrete than an equation would. A lot of groups skipped finding the slope of their line, so I need to keep reinforcing that the slope is important.

water density.jpg

Day 12: Springs, Buggies, & Board Meeting

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AP Physics: Springs

Students pulled on springs with force sensors to get data for Hooke’s Law. I usually have students who expect a horizontal spring to behave differently than a vertical one, so I took advantage of the force sensors to have students collect data for one of their springs in both orientations. When groups started to notice they have the same slope in both orientations, many of them started talking about whether that makes sense, which was fantastic.

spring.jpg

Physics: Buggies

Students finished their data collection and prepped whiteboards for the buggy lab. One student came up to tell me he was thinking about how he could use the data from this lab. In particular, he wants to give the slow buggy a head start, then figure out where the fast buggy will pass it. I let him know that will be our next lab practical.

I’ve got a decent number of students who are struggling with math skills, such as finding slope or plotting negative values, and I need to adjust how I’m addressing that. I’ve been giving small group instruction as needed, but I’m spending a lot of time with just a few groups and missed others who were on the wrong track with this lab until pretty late. I’m toying with some options like providing math “cheat sheets” or having some mini lessons during the class for groups who need help, but I’d really like to develop a culture where students are relying on each other for some of that.

buggy wb2.jpg

Chemistry Essentials: Board Meeting

Today went pretty smoothly; I think yesterday’s work on norms helped, though I need to make sure it doesn’t feel like a punishment next time. When I reviewed the norms at the start of class, a student asked if I actually like about teaching them, so I spent a few minutes sharing some examples of when I’ve really enjoyed their energy.

Students whiteboarded their results from this week’s volume lab. There are a big range of math skills in the class, but once groups compared the values on their data tables, they had an easier time getting at what the slope means. We hadn’t talked about the thickness of the sides, so I was excited when a student asked how it would change the results if the shapes were made of much thinner plastic.

vol wb2.jpg

 

Day 11: Uncertainty, Buggies, & Norms

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AP Physics: Uncertainty

We had a board meeting on yesterday’s force of gravity lab, and the discussion was better than I expected at this point in the year. As we were talking about the slope, one student claimed “Gravity doesn’t change”, which lead nicely into what we mean by that and how we know. In response, another student shared that yesterday one of her group members said “The force goes up 10 N for every 1 kg of mass”; after finally reading Arons this summer, one of my goals is to have students make “for every” statements about slope, and I was thrilled it came up naturally.

I also introduced uncertainty during the board meeting. Students had a lot of great observations about the relative precision of measurements and how much mass it took to change the reading on the scale, which gave them a sound conceptual basis. I rushed the discussion since the end of the hour was coming, and it ended up more teacher-directed than I’d like, but I’m pleased with how the basic approach worked.

fg wb.jpg

Physics: Buggies

Students collected data for the buggy lab. Since when I ask for observations, there is usually a student who says the buggy is moving at a constant speed, I took a page from Michael Lerner and framed the lab as seeing how we can find out. A few groups are starting to make “for every” statements about their slope, which I did not see during the introductory unit and is great to see. I think the relationship is more obvious here than it was in the intro labs.

buggy.jpg

Chemistry Essentials: Norms

I’ve been struggling with classroom management. This is a very high-energy group, and there are a lot of things that are a lot of fun, but I’ve been having trouble keeping them on task and getting them to voices besides their own. I decided to pause today to spend some time developing norms as a class. I think a lot of students felt it was punitive, but many also agree that things aren’t working at the moment.

Day 99: LOL Diagrams & Motion Detector

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AP Physics: LOL Diagrams

Students went from bar charts to full LOL diagrams today. I am really coming to appreciate one of the worksheets from the Modeling Instruction curriculum that has students make LOL diagrams using several different systems for the same scenario, which really nicely illustrates why identifying your system matters. Students took to this easily enough that I think bar charts and LOL diagrams are a spot where I can pick up the pace a little next year.

lol

Physical Science: Motion Detector Lab

Students walked in front of the motion detector to reproduce the graphs they worked on Friday. Since we ran out of time on free fall day, I also showed a clip of Brian Cox when he visited a giant vacuum chamber to drop a bowling ball and feathers.