Many thanks to Mr. Stark for filling in as my substitute today. I spent the day in Shoreline for professional development as part of my Washington Alliance for Better Schools (WABS) STEM teacher externship program. In class today, students were scheduled to share their field trip experience with Mr. Stark, after which they were to receive an article to read along with a worksheet with questions about the reading and the field trip. This past June, the Seattle Times published the article Toxic algae bloom might be largest ever (or download the PDF), providing students with background content for the final phase of our unit. The worksheet of questions about the reading can be downloaded here.
Monthly Archives: October 2015
Cells & Homeostasis: Seahurst Park Field Trip
Today was the big Seahurst Park field trip. Over 100 students and 12 adult chaperones traveled by bus down to the park where we met our hosts from the Environmental Science Center (ESC). ESC staff guided groups of students through six stations, with students spending a half-hour per station.
Watersheds (with Joanna): Students used a physical model of a city to learn how buildings, vehicles, pets, and other sources all contribute to the accumulation of pollution in Puget Sound. Students each shared one way they would personally help reduce their own impact on the environment.
Water Quality Testing (with Jennifer): Students first read a brief article highlighting why harmful algae blooms occur (below). Students then measured a variety of factors related to water quality by sampling water sources from around the park. Students worked in groups, with each rotation measuring one of the following: dissolved oxygen, phosphate, nitrate, pH, and turbitidy. Students compiled the data into mini lab reports, sharing out their findings with each other and then analyzing it through graphing and writing a brief conclusion.
Plankton Tow (with Kelly): Students collected samples of Puget Sound plankton using a plankton tow. Samples were collected into cups for analysis during the Plankton Lab.
Plankton Lab (with Jarett): Before using the microscopes to see the plankton in their Plankton Tow samples, students watched two brief videos to help them better understand the scale and consequences of harmful algae blooms (HABs). The first video, “Toxic algae blooms contaminate U.S. drinking water,” explains the impact of HABs on marine life, the fishing industry, and consumers. The second video, “Toxic Algae Bloom Causing Seizures in Sea Lions,” shows the neurotoxic effect of the algae toxin domoic acid on a sea lion found on the Washington coast. Students then viewed their own plankton under a microscope. Identification cards created by the Washington Sea Grant were used to identify species of plankton observed by students. Specifically, the Marine Zooplankton of Puget Sound card and the Marine Phytoplankton of Puget Sound card (pictured below) were provided.
Recycling (with Megan): Students learned all about how various types of common household waste can be separated into recycling, food waste, and garbage. The CleanScapes Recology community education program emphasized the importance of properly disposing of the various types of waste, with a focus on the types of waste often generated by teenagers.
Bioaccumulation Game (with Brendan): Poker chips, bags, arm bands, a few bright orange vests, and an energetic group of students was all it took to bring to life the concept of bioaccumulation. The game began with more than half the students (representing small fish preyed upon by salmon) scrambling around for 30 seconds to fill bags with poker chips (plankton) that had been scattered around in the grass. Next, the salmon were released, represented by students wearing bright green arm bands. When a “salmon” touched a smaller fish, the smaller fish gave the salmon their poker chips, representing a transfer of energy. After another 30 seconds, the orca entered the game (two students wearing bright orange vests) and devoured most of the salmon who then turned over their poker chips to the orca. When the game ended, the two orca had most of the poker chips. Students were then pushed to consider what might happen to the orca if a biotoxin were present in the environment and was being consumed by species lower toward the base of the food chain.
This was such a fantastic opportunity for students to visit a beautiful local park, interact with the talented and dedicated ESC staff, and spend the day bonding with peers and staff from our school, our district central office, and our community. There are an enormous number of people to thank for making today a success, and my students will be recognizing all of the behind-the-scenes people in the coming days.
Looking ahead, we will use our experience today as the basis for the final part of our first unit. As students make sense of what they learned and begin to take ownership of their own power to protect our local environment, they will be challenged to publicly share their learning. Stay tuned!
Matter, Atomic Structure, and Bonding: Stable and Radioactive Isotopes
After the long weekend, we spent a majority of the class period reviewing Lesson 13. Students had a lot of great questions focusing on how to calculate the number of protons and neutrons in a given atom, how to wrote isotopes, and how to calculate the average atomic mass of an element given the frequency of naturally occurring isotopes. Pictures from the white board are shown below. At the end of class, students received copies of the Lesson 14 Worksheet and the Chart of Naturally Occurring Isotopes. Tomorrow, students will review the Lesson 14 PowerPoint, taking careful notes on slides 7-9 before working together to complete the worksheet and textbook questions 1-14. Email me with any questions.
Updates: Students had a substitute on Tuesday (10/13) and then took the PSAT yesterday (10/14). Today, we watched the final segments of Hunting the Elements (from 1:26:00 to the finish) to refresh student learning about neutrons and isotopes. After the video, we worked through a few questions from the Lesson 14 worksheet and from the textbook. Tomorrow (Friday) students will participate in a “write to explain” baseline assessment to support the science department’s goal of assessing how well our science students are able to clearly write scientific explanations so that we can work to improve their writing in that area.
Matter, Atomic Structure, and Bonding: Isotopes
We extended our learning about neutrons yesterday with an lesson about isotopes. The Lesson 13 PowerPoint explains how certain elements like carbon always contain the same number of protons, but may contain different numbers of neutrons. Students then practiced calculating the number of protons, neutrons, and electrons on the Lesson 13 Worksheet. For homework, students should complete questions 1-9 at the end of Lesson 13 in the textbook. For extra credit, students may earn 10 extra points by researching about one of the elements and compiling their research into an Element Profile Project (see Chapter 2 Summary page in the textbook for instructions). An additional 5 points may be earned by adding on a section explaining which isotopes of the selected element are naturally occurring, the proportion of each isotope, and the atomic structure of each isotope (the number of protons, neutrons, and electrons in each isotope). If an isotope has a particular scientific use, that should also be included. Remember, no school tomorrow.
Cells & Homeostasis: Extreme Environments
Today’s lesson focused on bridging student learning about extremophiles and our field trip set for this coming Monday. We set our sights on defining “extreme environments”, learning about what makes an environment extreme and also about how some organisms are specially adapted to live in such environments. The PowerPoint introduced students to the concept of a Bell-Shaped Curve, challenged them to articulate their own ideas about what constitutes extreme, and then provided an opportunity for discussion around how statisticians define “normal” and whether our own perspective about whether something is extreme necessarily involves judging an individual who looks or acts extreme. We concluded the lesson after slide 26 and will complete the slide deck tomorrow.
Matter, Atomic Structure, and Bonding: Atomic Number and Atomic Mass
We continued our study of the atom by learning about the relationship between atomic number and atomic mass. Before launching into the Lesson 12 PowerPoint, we paused and reviewed student questions about the Lesson 11 Worksheet. We focused primarily on questions 3 and 5 from the worksheet, with responses drawn on the white board (pictured below, with the answer for question 3 on the left side of the board and question 5 on the right).
The questions nicely led into the Lesson 12 PowerPoint, after which students had the remainder of the class period to complete the Lesson 12 Worksheet. Aside from reviewing Lesson 12 in the textbook and reading Lesson 13 in preparation for class tomorrow, there was no additional homework assigned for this evening.
Cells & Homeostasis: Environmental Science Center Info Session
We spent the class period in the library today preparing for the field trip to Seahurst Park. Christine and Jarrett from the Environmental Science Center met with the students. Students completed a questionnaire designed to help ESC prepare for the trip. Then they divided into two groups and competed against each other in “The Algae Game.”
Matter, Atomic Structure, and Bonding: Models of the Atom
Chapter 3 began with a historical study of models of the atom. The Lesson 11 PowerPoint provides key vocabulary around the components of the atom (proton, electron, neutron, and nucleus). To go along with the Lesson 11 Worksheet, students also received a handout explaining the five models of the atom. Students also received a copy of the Periodic Table for reference. For homework, students should complete questions 1-5 from the end of Lesson 11 in the textbook.
Cells & Homeostasis: Types of Cells
Today we learned about the three major cell types: prokaryotes, eukaryotes, and archaea. The PowerPoint included detailed notes on the similarities and differences of the cell types, and concluded with a SciShow video about the tardigrade. Students then had time to read through the extremophiles reading packet which is due Wednesday.
As a reminder, we will meet in our classroom at the beginning of the class period, after which we will head down to the library for a meeting with Christine Froschl, Outreach and Volunteer Coordinator at the Environmental Science Center at Seahurst Park. Ms. Froschl will be speaking to us about the ESC and will prepare us for our upcoming field trip to Seahurst Park.
Matter, Atomic Structure, and Bonding: Chapter 2 Quiz
Chapter 2 concluded with a quiz today. Prior to the quiz, we reviewed the multiple choice and short answer practice quizzes. Now that students have had the opportunity to prepare for both forms of a chapter quiz using the practice exams, students will be expected to study for the Chapter 3 Quiz without the practice exam.
Science with Swart 
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