Monday/Tuesday, 30/31 October, 2017

ESSENTIAL QUESTION: How has the Atomic Model changed over time?

LEARNING TARGET: Describe how the modern atomic theory was developed.

BENCHMARKS:: SC.912.P.8.3

LEARNING OBJECTIVES:  Students will be able to:

-Describe the structure of atoms in terms of protons, neutrons, and electrons, and differentiate among these particles in terms of mass, electrical changes and location within the atom.

-Student data chat.

BELL RINGER - Complete the handout Your guide to the atom

VOCABULARY: alkali metals, alkaline earth metals, group (family), halogen, inner transition (rare earth metals), ion, metal, metalloid, noble gas, notation, nonmetal, octet rule

HOME LEARNING: update notebook

AGENDA

WHOLE GROUP

Students completed the handout Your Guide to the Atom as their bell ringer.

Students then retook a base-line exam for Chemistry, one that is from the District, for end of year comparisons.

Students then used class time to work on their element presentations.

Thursday/Friday, 25/26 October, 2017

NOTE _ Period 6 did not meet on Thursday due to the Fall Harvest Festival. They completed all work on Tuesday. See that blog to determine what you missed.

ESSENTIAL QUESTION: How has the Atomic Model changed over time?

LEARNING TARGET: Describe how the modern atomic theory was developed.

BENCHMARKS: SC.912.P.8.3

LEARNING OBJECTIVES:  Students will be able to:

-Complete the Separation of Mixtures lab write up.

-Describe the atomic theory and the reasons for the changes in the model over time.

-Describe the structure of atoms in terms of protons, neutrons, and electrons, and differentiate among these particles in terms of mass, electrical changes and location within the atom.

BELL RINGER - Your guide to the atom

VOCABULARY: alkali metals, alkaline earth metals, group (family), halogen, inner transition (rare earth metals), ion, metal, metalloid, noble gas, notation, nonmetal, octet rule

HOME LEARNING: update notebook

AGENDA

WHOLE GROUP

Students labeled the atom as their bell ringer.

We then completed notes (see last blog for move of power point) for those students who needed to complete them.

Students also had the chance to complete the Gizmo on Mystery Powder Analysis and submit it.

Monday/Tuesday, 23/24 October, 2017

ESSENTIAL QUESTION: How has the Atomic Model changed over time?

LEARNING TARGET: Describe how the modern atomic theory was developed.

BENCHMARKS: SC.912.P.8.3

LEARNING OBJECTIVES:  Students will be able to:

-Complete the Separation of Mixtures lab write up.

-Describe the atomic theory and the reasons for the changes in the model over time.

-Describe the structure of atoms in terms of protons, neutrons, and electrons, and differentiate among these particles in terms of mass, electrical changes and location within the atom.

BELL RINGER - Choose an element and record the protons, neutrons, and electrons for that element’s atom.

VOCABULARY: alkali metals, alkaline earth metals, group (family), halogen, inner transition (rare earth metals), ion, metal, metalloid, noble gas, notation, nonmetal, octet rule

HOME LEARNING: update notebook

AGENDA

WHOLE GROUP

Students chose an element to share with the class, noting its number of protons, neutrons, and electrons.

We completed the separation of mixtures lab.

Students then did the notes for the atomic theory. Students used the handout below to record their information.

You can find the power point in video form with which to complete the notes below.

Thursday/Friday, 19/20 October, 2017

ESSENTIAL QUESTION: How has the Atomic Model changed over time?

LEARNING TARGET: Describe how the modern atomic theory was developed.

NGSSS: SC.912.P.8.3

BENCHMARKS:

-Explore the scientific theory of atoms (also known as atomic theory) by describing changes in the atomic model over time and why those changes were necessitated by experimental evidence.

LEARNING OBJECTIVES:  Students will be able to:

-Describe the structure of atoms in terms of protons, neutrons, and electrons, and differentiate among these particles in terms of mass, electrical changes and location within the atom.

-Complete the Separation of Mixtures lab write up.

-Research information for project It’s Simply Elemental!.

BELL RINGER - ! and 2 of Atomic structure worksheet

VOCABULARY: alkali metals, alkaline earth metals, group (family), halogen, inner transition (rare earth metals), ion, metal, metalloid, noble gas, notation, nonmetal, octet rule

HOME LEARNING: work on project

AGENDA

WHOLE GROUP

Students completed number one on the handout above, identifying the particles of an atom and their charge.

Students then completed work on their projects.

Tuesday/Wednesday, 17/18 October, 2017

ESSENTIAL QUESTION: How has the Atomic Model changed over time?

LEARNING TARGET: Describe how the modern atomic theory was developed.

BENCHMARKS: SC.912.P.8.3

LEARNING OBJECTIVES:  Students will be able to:

-Describe the development and historical importance of atomic theory from Dalton, (atomic theory), Thomson (the electron), Rutherford (the nucleus and “gold foil” experiment), an Bohr (planetary model of atom).

Describe the structure of atoms in terms of protons, neutrons, and electrons, and differentiate among these particles in terms of mass, electrical changes and location within the atom.

-research information for project It’s Simply Elemental!.

BELL RINGER - Atomic Structure and Theory Magic Number Handout

Complete the handout by working together and reading the information from the following note pages:

Use this information to complete the bell ringer handout.

Students took about 20 minutes to discuss and complete the bell ringer. 

They spent the remainder of the period working on their presentation.

Friday/Monday, 13/16 October, 2017

ESSENTIAL QUESTION: How can matter be separated?

LEARNING TARGET: Calculate percent error in an experiment on separation of mixtures

BENCHMARKS: SC.912.P.8.2

LEARNING OBJECTIVES:  Students will be able to:

-Complete separation of mixtures lab.

-research information for project It’s Simply Elemental!.

BELL RINGER - Set up lab in lab book

VOCABULARY: chemical change, chemical property, physical change, physical property, homogeneous, heterogeneous, element, compound, mixture, substance, extensive properties, intensive properties, density, mass, volume, filtration, suspension, solution, solute, solvent

HOME LEARNING: HL 7 Mixtures/work on project

AGENDA

WHOLE GROUP

I was out of the classroom on Wednesday, 11 October, so those students did not receive HL 7. All students should have HL 7 ready to turn in by next class period.

We continued to write up the lab in our lab book. 

Students also had time to work on their element project, which is due next week.

Wednesday/Thursday, 11/12 October, 2017

ESSENTIAL QUESTION: How can matter be separated?

LEARNING TARGET: Use separation techniques to separate homogeneous and heterogenous mixtures

BENCHMARKS: SC.912.P.8.2

LEARNING OBJECTIVES:  Students will be able to:

-Use separation techniques to separate mixtures into their component parts.

BELL RINGER - separation of mixtures worksheet (see last class)

VOCABULARY: chemical change, chemical property, physical change, physical property, homogeneous, heterogeneous, element, compound, mixture, substance, extensive properties, intensive properties, density, mass, volume, filtration, suspension, solution, solute, solvent

HOME LEARNING: notebook update

AGENDA

WHOLE GROUP

Students made their lab journal and began the write up for the separation of mixtures lab as their bell ringer.

Students received HL 7. See below.

We continued with the lab experiment and write up.

The remaining class time was spent working on the element project.

Monday/Tuesday, 09/10 October, 2017

ESSENTIAL QUESTION: How can matter be separated?

BENCHMARKS: SC.912.P.8.2

LEARNING OBJECTIVES:  Students will be able to:

-Use separation techniques to separate mixtures into their component parts.

BELL RINGER - separation of mixtures worksheet (see last class)

VOCABULARY: chemical change, chemical property, physical change, physical property, homogeneous, heterogeneous, element, compound, mixture, substance, extensive properties, intensive properties, density, mass, volume, filtration, suspension, solution, solute, solvent

HOME LEARNING: notebook update

AGENDA

WHOLE GROUP

Students completed the separation of mixtures bell ringer from last class.

Students then submitted HL 6 and reviewed.

Students needing to correct tests did so.

We did the separation of mixtures lab, but did not complete the write up. We will do so next class period.

Thursday/Friday, 05/06 October, 2017

ESSENTIAL QUESTION: How can matter be separated?

BENCHMARKS: SC.912.P.8.2

LEARNING OBJECTIVES:  Students will be able to:

-Explain how mixtures can be separated into their components.

BELL RINGER - separation of mixtures worksheet

VOCABULARY: chemical change, chemical property, physical change, physical property, homogeneous, heterogeneous, element, compound, mixture, substance, extensive properties, intensive properties, density, mass, volume, filtration, suspension, solution, solute, solvent

HOME LEARNING: HL 6 Chemicals are Everywhere

AGENDA

WHOLE GROUP

Students worked on the bell ringer above. We will complete it as we do the lab.

Students received HL 6, which can be found above. All answers should be on your own paper.

Students received the information for the first project, which can be found below. I will give you a list of possible topics next class. You will also have some time next class to work on your research.

We reviewed the most missed questions on the exam and then students corrected their exam.

Tuesday/Wednesday, 03/04 October, 2017

Students had a short study/review session before taking an assessment on laboratory safety, the scientific method, chemical and physical properties, and density.