Day 96: Circuit Basics, Cart Catching, & Chemical Changes

February 12, 2018February 12, 2018 / Marta R. Stoeckel / 1 Comment

AP Physics: Circuit Basics

Students used the PhET circuit construction kit to start exploring basic circuit properties and develop Ohm’s Law. It was a lot of fun to listen to students as they discovered new features in the simulation and discussed details they noticed.

Physics: Cart Catching

To introduce momentum, we borrowed the idea of “chalk-smashing ability” used to introduce energy in the PUM curriculum and had students play with how they could make it harder to catch a cart on a dynamics track. I got excited when a couple of groups took advantage of the plunger carts to see how catching the plunger end felt different than catching the other end, which will be a great lead-in to impulse.

Chemistry Essentials: Chemical Changes

Students did several different chemical reactions to identify signs of chemical changes. There were lots of good observations during the lab.

Day 95: Electric Potential Difference, Conservation of Energy, & Quiz

February 9, 2018 / Marta R. Stoeckel / 1 Comment

AP Physics: Electric Potential Difference

Students did a variation on the lab to map an electric field in a tray of water. Since I just wanted to define electric potential difference, they measured the voltage along a line with the multimeter’s ground probe in a few different positions (my article about this lab was in the January issue of The Physics Teacher). There was a lot of good discussion within lab groups about what negative voltages mean.

Physics: Conservation of Energy

Before their quiz, students whiteboarded a couple of conservation of energy problems (which I spaced out on taking a picture of). For a lot of students, this reinforced the importance of the meaning-making steps and gave them a boost of confidence before starting the quiz. The downside is there are students who approach the pre-quiz problems as a chance to cram, rather than a warm-up. I’m trying to decide if I’m okay with that trade-off.

Chemistry Essentials: Quiz

Students took their quiz on atomic models and classifying matter. I’ve been working a lot on the class culture and finding ways to connect with students I’ve been clashing with, and it paid off today when, for the first time, I didn’t have to police students staying quiet after they finished their quiz.

Day 94: Whiteboarding, Bouncy Ball Energy, & Classifying Matter

February 8, 2018 / Marta R. Stoeckel / Leave a comment

AP Physics: Whiteboarding

Students whiteboarded their answers to yesterday’s problems. There were a couple of meaty ones on the worksheet, so I had all groups whiteboard the same problem and then we had several consensus-building conversations.

A visual for quantization of charge

Physics: Bouncy Ball Energy

We wrapped up figuring out where a bouncy ball dissipates energy. As part of the follow-up, we dropped a kickball under a motion detector (thanks to Brian Frank for the idea!) to produce energy vs. time graphs and confirm the results from students’ video analysis.

kickball e-t graphs.PNG

Chemistry Essentials: Classifying Matter

Students worked on a worksheet to connect particle diagrams to the vocabulary for classifying matter that we introduced yesterday. I also was able to have really good individual interactions with a couple of students I’ve been butting heads with a lot, which helped make the whole classroom feel more relaxed and positive. I’ve been getting overwhelmed in chemistry a lot this year and have not done a good job of making time to talk to students about things besides chem, and I can’t underestimate the value of those conversations.

Day 93: Coulomb’s Law, Dissipated Energy, & Compounds

February 7, 2018 / Marta R. Stoeckel / Leave a comment

AP Physics: Coulomb’s Law

Students worked on some problems using Coulomb’s Law. I was surprised at how challenging a lot of students found a problem that deals with the quantization of charge, but there were a lot of great conversations as students worked through that one.

Physics: Dissipated Energy

We moved into the video analysis portion of determining where a bouncy ball dissipates energy (my article about this activity was published in the January issue of The Science Teacher). Before they got their bouncy ball, groups had to tell me what specific measurements they would use from the video analysis; the groups that completed the worksheet from the past few days were very successful while the groups that left big portions of the worksheet blank really struggled. I had one group get really excited watching their video when they noticed the bouncy ball got less blurry at the top of each bounce since it showed the bouncy ball really does briefly stop at the top.

Chemistry Essentials: Compounds
Students observed iron and sulfur, eventually heating it in a test tube to make iron sulfide. They were very into burning the iron and sulfur. Afterward, I used their observations in the lab to introduce vocab for pure substances, mixtures, and compounds.

Day 92: Board Meeting, Dissipated Energy, & Mistakes Game

February 6, 2018February 6, 2018 / Marta R. Stoeckel / Leave a comment

AP Physics: Board Meeting
Students whiteboarded their results from a Pivot Interactives activity on Coulomb’s Law. There was some debate over whether inverse or inverse-square was the right linearization; I usually don’t have students sketch their points on their whiteboards, but I think that would have been helpful today. Students did a nice job connecting their results to Newton’s Laws and their knowledge from chemistry.

This group ran out of space for their linearization, but I found their set of graphs very satisfying.

Physics: Dissipated Energy

We continued prep for determining which interaction causes a bouncy ball to dissipate energy (my article about this activity was published in the January issue of The Science Teacher) by whiteboarding key points of yesterday’s work. Today really seemed to help a lot of students see the connections between the energy bar charts, free-body diagrams, and velocity vs. time graphs, which is exactly what I was going for.

Chemistry Essentials: Mistakes Game

We used the mistakes game to go over yesterday’s problems. There was some great discussion, but it was very tough to keep students from breaking into side conversations. Next time, I should spend a little more time making sure behavior expectations are explicit as possible and helping students see the value in those expectations. There were also some students who were extremely engaged and clearly developed a lot of confidence in sketching Borh models today, which was awesome.

Day 91: Coulomb’s Law, Bouncy Balls, & Bohr Model

February 5, 2018 / Marta R. Stoeckel / 1 Comment

AP Physics: Coulomb’s Law

Students worked on a Pivot Interactives activity to find a relationship between the force between two charged spheres and the distance between them. A few students started wondering about the limits of the model since they recognized an infinite force doesn’t make sense, which lead to some good discussion about what it would take to make the distance zero.

Physics: Bouncy Balls

Students started working a lab to determine what interaction is dissipating energy for a bouncy ball (my article about this activity was published in the January issue of The Science Teacher). Today, students worked on sketching representations of the bouncy ball’s motion, including energy bar charts, free-body diagrams, and velocity vs. time graphs for each possible explanation in order to identify useful evidence they can get from video analysis of the bouncy ball. To scaffold this process, I had students sketch the representations on a worksheet today rather than going straight to whiteboards.

Chemistry Essentials: Bohr Model

We talked about the results of last week’s simulation to find the links between the Bohr model and the periodic table, then students worked on a worksheet sketching Bohr models from the periodic table. I skipped over revisiting static electricity (which the Modeling Chemistry curriculum calls for) to help establish the concept of charge, but I think next time I’d like to make time for it.

Day 90: Multiple Choice, Practical, & Bohr Model

February 1, 2018 / Marta R. Stoeckel / 1 Comment

AP Physics: Multiple Choice

Students took a quiz, then we used Plickers to practice some multiple choice. I intentionally picked some problems that go back to topics from earlier this year. I also spent some time reviewing what it looks like to take full advantage of this activity, and saw students more engaged than last time. I think doing multiple choice less often was a good call.

Physics: Practical

Students wrapped up the energy practical they started yesterday. I added a couple of conceptual questions to the task, and was pleased with the conversations I overheard. I think next time I’ll make explaining your group’s answer to those questions part of testing out the result.

Maker:S,Date:2017-10-21,Ver:6,Lens:Kan03,Act:Lar02,E-ve

Chemistry Essentials: Bohr Model

Students used PhET’s Build an Atom simulation to play with the Bohr model and explore how it connects to the periodic table. A few students wanted to know why we are using the Bohr model when the quantum model from yesterday’s reading is more complete, which is a great opener for conversation about what makes a useful scientific model.

build atom.PNG

Day 89: Superposition, Energy Practical, & Atomic Models

January 31, 2018January 31, 2018 / Marta R. Stoeckel / 1 Comment

AP Physics: Superposition

After a little playing with the snakey springs, students went to Pivot Interactives to explore wave superposition. There was a lot of great discussion about whether the wave pulses passed through each other or bounced off each other with students making some pretty detailed observations of the pulses.

Physics: Energy Practical

Students worked on using conservation of energy to determine where to place a photogate on a ramp to get a cart moving at a certain velocity. A lot of groups had trouble interpreting their height measurements; I think a lot of them were not keeping track of where they placed the reference height. One group recognized this is pretty similar to the kinetic energy lab we did and used their lab results to confirm today’s calculation.

Chemistry Essentials: Atomic Models

I still haven’t found a way I’m really happy with to address the state standard about the evolution of atomic models, but today was the day I tried. I used a POGIL activity where students read some summaries of the major steps in the atomic model and answered some questions. A few students felt overwhelmed by the length of the reading, so we talked about how to use the section headings to make it more manageable. I liked this better than last tri’s jigsaw since doing the full reading seemed to help more of them see the different models as part of the same story.

Day 88: Board Meeting, Energy CERs, & Periodic Trends

January 30, 2018 / Marta R. Stoeckel / 3 Comments

AP Physics: Board Meeting

Students whiteboarded their results from the standing waves lab and the wave equation came nicely out of the discussion. I usually give students a minute or two to pre-discuss with their lab group once we circle up with the boards, but I think I can skip that time in my 2nd hour; they dove immediately into asking questions and making comments across groups, which is a great sign of how comfortable with each other and with talking physics.

waves wb.jpg

Physics: Energy CERs

Students wrote CERs with their lab groups to make qualitative predictions about objects like the seismic accelerator and a ballistic pendulum. A lot of groups struggled a lot with what good reasoning looks like, which is not surprising. We’ve backed away from reasoning tasks in Physics this year because many students are struggling on the quantitative problems, but I need to remind myself that students need the reasoning tasks to practice the sensemaking we want them to do on problems.

nrg cer.jpg

Chemistry Essentials: Periodic Trends

Students used yesterday’s cards alongside their periodic tables to start looking at the patterns in the periodic table. Students made a lot of good observations and started asking questions about the legs used to represent valence electrons, which should make for a nice lead in to atomic structure.

card sort 2

Day 87: Standing Waves, Whiteboards, & Elements Card Sort

January 29, 2018 / Marta R. Stoeckel / Leave a comment

AP Physics: Standing Waves

Between parent teacher conferences and a bad cold, I failed to actually assign the Pivot Interactives activity I’d planned for Friday to any classes, which made it a little tricky for them to complete. Today, I actually assigned it and they collected data to find a relationship between the wavelength and frequency of a standing wave. The upside is my students had a very self-directed activity while I was still not at 100%.

Physics: Whiteboarding

The majority of my students attempted the problems I left for them to do with Friday’s sub, which is a nice sign of progress. Today, we spent some time whiteboarding the problems, mostly using gallery walks. I gave each problem to at least two different groups so they could compare answers and approaches before the gallery walk, which helped build some confidence. In another sign of progress, in one group that is usually pretty quick to ask for help, one member insisted that today, they would discuss every question before they asked me and told me to wait several times when her groupmates called me over. In the end, they were able to reason their way through every question they had.

Chemistry Essentials: Elements Card Sort

Students worked on a card sort activity loosely based on Mendeleev’s process for developing the periodic table. Each group picked two properties to sort by (one for columns and one for rows), and quickly noticed that other patterns started popping out. I also got a lot of students eager to know what some of the features of the cards represent, so it will be nice to tie some upcoming activities back to this one. Though, I need to brush up on my history a little bit to explain how Mendeleev knew some of these properties.