We began class with the Lesson 18 PowerPoint.  There are several hand-outs for Lesson 18, including the Lesson 18 Worksheet, the Lesson 18 Shell Model, the Table of Electron Shells, and the Table of Valence and Core Electrons.  Students received copies of all of these on Monday in the packet that included the Flame Test Lab.

Notes from class:

To begin class, students received back their Chapter 3 quizzes.  We briefly reviewed the quizzes and then turned our attention to our first big lab of the year: The Flame Test Lab.  To prepare for the flame test lab tomorrow, we watched the video below:

Next, students received a copy of the Flame Test Lab and we read through the procedure and then answered the pre-lab questions.

Tuesday, October 15: Flame Test Lab

After completing the lab, students were assigned to complete analysis questions 1 and 2 as homework.

Wednesday, October 16: Notes from the white board (very short class period because of the PSAT) are below.  Students had the class period to complete the table and analysis questions during class.  Those who did not finish should complete the work as homework.

Students are encouraged to review the Lesson 17 PowerPoint.

Homework for this evening:

• Read Lesson 17 in the textbook.  Login via hs.saplinglearning.com and enter your Synergy username and password.
• Work through the exercises at the end of Lesson 17.
• Come to class tomorrow prepared to ask questions about anything from Lesson 17 you do not yet fully understand.

Extend Your Learning!

• NPR: What Causes The Northern Lights? Scientists Finally Know For Sure

Unit 1 Project

Background: With the end of our first unit of chemistry in sight, consider all you have learned thus far.  Our initial review of matter (including mass, volume, and density) led to an introduction of the periodic table.  We learned about the history of atomic models, explored how atoms are constructed (protons, neutrons, and electrons) and how changing those particles impact an atom.  We learned that the elements are born in stars, with heavier elements forged in the explosive forces of supernovae, while unstable atoms experience decay over time.  We learned that neutrons decay into protons, protons decay into neutrons, and atoms can gain or lose electrons according to well-defined rules (main-group elements) and less-well-defined rules (transition metals).  We learned how to assemble ions into compounds, how to identify the metals in ionic compounds using the flame test, and how to write electron configurations of elements according to the number of electrons in subshells.

“The cosmos is within us.  We are made of star stuff.  We are a way for the universe to know itself.”

What does this quote mean to you?  Your assignment for this project is to unpack Carl Sagan’s famous quote, applying what you have learned during chemistry in unit 1 to your own effort to know yourself.

Deliverable: A well-written essay shared with Mr. Swart as a Google Doc.  Incorporate as many Unit 1 vocabulary words as possible (highlight in bold red font if you want them to count toward your total!), in a manner that isn’t forced, to demonstrate mastery of the unit and a deep understanding of yourself.  I look forward to learning more about you!

Due Date: Friday, November 8, 2019

• Chapter 1: What are your intensive and extensive properties? What makes you who you are and you don’t see changing over time (intensive properties)?  How have you changed over time, and what changes do you anticipate for yourself in the future (extensive properties)?
• Chapter 2: Where does your name come from? What does your name mean to you?  What does your name mean to others?  What symbols best represent who you are and why?  Consider your reactivity: what gets you excited?
• Chapter 3: Models of the atom have changed over time – just like people!  Think about how well your teacher and classmates know the real you.  How well do you know the real you?  What are your most important parts (your metaphorical protons, neutrons, and electrons).  Share insights about yourself that are not obvious to someone who doesn’t know you well and would like to know you better.  What are your needs (fusion)?  What are your gifts to the world (particles shared through decay – let’s make decay a good thing!)?  What are your hopes and dreams, and how will they positively impact others (fission)?
• Chapter 4: Electrons are the way atoms interact with each other?  We can predict how an atom will interact with other atoms based on its electron structure.  What about you?  Are you that predictable?  What do you intend to accomplish this year, five years from now, ten years from now?  What do you see as your most likely path when you look to the future?  How about your path if you were an ion, able to clear out or add a few extra electrons and make life really interesting for yourself – if there were no constraints on your future, what would you want to accomplish?

Grading: Your essay will be evaluated as a unit exam, a category that comprises 25% of your semester grade.

Grading Rubric:

List of Unit 1 Vocabulary Words

Unit 1 Project – Example Introduction

The Story of David Swart

My name is Dave, a name I inherited from my father.  My story began 41 years ago in Burien, Washington, at a hospital known today as Highline Hospital.  My intrinsic properties, the things that haven’t changed for as long as I can remember, are that I am an inquisitive person and I have a very strong sense of fairness.  Some of my earliest memories are of playing with Legos and building spaceships, dreaming of a future with endless possibilities for exploring the unknown.  I would always look forward to visiting with my grandfather.  He served in World War II (something he never talked about), and lived in Port Orchard on the Kitsap Peninsula.  Because he lived so far away, we wouldn’t see him often, but when we did I would explore his garden, his garage, and the beach below his house overlooking Seattle.  I thought it was so neat that someone could literally grow food, something my family didn’t do.  I loved being in his garage and watching him work with wood, turning it into so many different amazing projects.  And I really loved walking the beach, looking for treasures, trying not to step on rocks covered with barnacles or slip on the seaweed, often looking up at the big buildings of downtown Seattle and hoping one day to have a job where I could work there.

Unit 1 Project – Example Introduction

The Story of Johnny

My name is Johnny. I am currently attending Highline College in hoping to transfer to a four year university to get a degree in communications. If I were to make a hypothesis on what my future career would look like, I would say I would be in broadcasting. I am my own element. I am unique, and there is nobody who is exactly like me. I guess you can say my identical brother is pretty close though. In that case he is an isotope. We have the same genetic makeup, but different characteristics.

List of Unit 1 Vocabulary Words

To begin class, students moved to their new seats and then attacked entry task question #2 with their new seat partners.

Next, students were asked to share out a response to the question: where do the elements come from?  After a brief discussion, we watched the video below:

Next, we worked through the PowerPoint to learn more about the concepts of fusion and fission, and then students used the remainder of class to work on the Lesson 16 Worksheet.  This is the final textbook lesson of Chapter 3.  On Tuesday, we will continue our exploration of nuclear reactions with a Gizmo activity in preparation for the Chapter 3 test on Thursday.

Class notes for October 8:

For our first day of Lesson 15, we continued our exploration of how the nucleus of an atom can change.  The lesson addressed the question: What are nuclear reactions?  We began with an illustration depicting the key vocabulary from the Lesson 15 PowerPoint in order to better understand the Nuclear Quest board game which is the hands-on learning for the day.

For the game, students gathered into teams of four, with each team receiving the board, the three sheets of nuclear quest cards, the two sheets of radiation cards and the game instructions.  Also, the game requires dice which are in limited supply, so visit Random.org and use the virtual dice roller!

For our second day of Lesson 15, we began with an entry task instructing students to look up in their textbook 10 important vocabulary terms to write down  in their lab notebooks.

Next, we briefly reviewed the net effects of alpha and beta decay on the parts of an atom:

Finally, students replayed the Nuclear Quest game from yesterday, this time focusing on understanding the types of reactions and their effects on atoms.  Students also received the Lesson 15 worksheet to help guide them through the key learnings in the game.  After completing the game, students received a copy of the Nuclear Decay Gizmo which they should plan to complete by the end of class tomorrow.

Extend Your Learning!

• Keep learning through Khan Academy!  There are a number of excellent lessons focusing on the life and death of stars (nuclear fusion reactions) as well as radioactive decay (nuclear fission reactions).
• Read about fusion happening in the Sun: Neutrinos prove the Sun is doing a second kind of fusion in its core
• Prefer learning through Crash Course? Watch the Nuclear Chemistry videos below:
• For more information on radioactive decay, visit the Science Education Resource Center’s Radioactive Decay web page at Carlton College.
• Investigate human efforts to harness and use nuclear reactions – we must understand history to avoid repeating it!
  • The Atomic Bomb, Hiroshima, and Nagasaki (1945)
  • Kyshtym (1957)
  • Three Mile Island (1979)
  • Chernobyl (1986)
  • Fukushima (2011)
  • Hanford, WA (1942 – present)
  • France: A Nuclear Power Success Story
  • NASA: Nuclear Thermal Propulsion
  • Naval Base Kitsap / Bangor Submarine Base
  • Nuclear Medicine
• The question of whether hydrogen is a metal or a nonmetal has come up in some classes in recent days.  Settle the debate for yourself by reading the articles below:

  • Diamond vise turns hydrogen into a metal, potentially ending 80-year quest

  • What in the World Is Metallic Hydrogen?