2nd and 3rd Block Physical Science

Week of: 5/5/25

*for additional curriculum information, please visit the district's resource High School Pacing Guides  or Georgia Standards of Excellence

Course Name: Modified Physical Science 

Monday

SPS10. Obtain, evaluate, and communicate information to explain the properties of and relationships between electricity and magnetism. 

a. Use mathematical and computational thinking to support a claim regarding relationships among voltage, current, and resistance. 

b. Develop and use models to illustrate and explain the conventional flow (direct and alternating) of current and the flow of electrons in simple series and parallel circuits. (Clarification statement: Advantages and disadvantages of series and parallel circuits should be addressed.) 

Learning Targets:

SPS10b: We are learning to develop and use models to illustrate and explain the conventional flow (direct and alternating) of current and the flow of electrons in simple series and parallel circuits.

Success Criteria: I will know I am successful when I can . . .

• 

  Create and compare both series and parallel circuits

• 

  Use models of series and parallel circuits to identify at least two advantages and two disadvantages of both series and parallel circuits.

Lesson/Activity

-Daily 10 Questions

-Series v. Parallel Circuits reading passage and questions as notes (w/partner) 

-Flocabulary Vocab Game/Kahoot 

-Circuit Maze Game

Resources:

Teacher Created Materials, Edpuzzle, Flocabulary 

Tuesday

SPS10. Obtain, evaluate, and communicate information to explain the properties of and relationships between electricity and magnetism. 

a. Use mathematical and computational thinking to support a claim regarding relationships among voltage, current, and resistance. 

b. Develop and use models to illustrate and explain the conventional flow (direct and alternating) of current and the flow of electrons in simple series and parallel circuits. (Clarification statement: Advantages and disadvantages of series and parallel circuits should be addressed.) 

Learning Targets:

SPS10b: We are learning to develop and use models to illustrate and explain the conventional flow (direct and alternating) of current and the flow of electrons in simple series and parallel circuits.

Success Criteria: I will know I am successful when I can . . .

• 

  Create and compare both series and parallel circuits

• 

  Use models of series and parallel circuits to identify at least two advantages and two disadvantages of both series and parallel circuits.

Lesson/Activity

-Daily 10 Questions

-Vocabulary Review games 

-Unit 9 Study Guide on Electricity - quiz tomorrow  

-Circuit games or “If You Build It”  

Resources:

Teacher Created Materials, Edpuzzle, Flocabulary 

Wednesday

SPS9. Obtain, evaluate, and communicate information to explain the properties of waves. 

a. Analyze and interpret data to identify the relationships among wavelength, frequency, and energy in electromagnetic waves and amplitude and energy in mechanical waves. 

b. Ask questions to compare and contrast the characteristics of electromagnetic and mechanical waves. 

c. Develop models based on experimental evidence that illustrate the phenomena of reflection, refraction, interference, and diffraction. 

Learning Targets:

SPS9a:  We are learning to explain the relationship between amplitude and energy in a mechanical wave based on data analysis and interpretation.

SPS9b: We are learning to compare/contrast characteristics of electromagnetic and mechanical waves.

Success Criteria: I will know I am successful when I can . . .

• 

  Identify, define, and draw longitudinal waves, labeling all parts.

• 

  Understand that mechanical waves can be longitudinal or transverse.

• 

  Relate the energy of a mechanical wave to its amplitude. 

• 

   Explain the difference in electromagnetic and mechanical waves in terms of medium and motion

Lesson/Activity

-Daily 10 Questions

-Unit 9 Quiz Review

-Unit 9 Quiz

-Circuit Maze Game

-Intro to Waves (Unit 10) vocab in Google Classroom 

-Bill Nye: Waves Video and WS

-Resources:

Teacher Created Materials, Edpuzzle, Flocabulary

Thursday

SPS9. Obtain, evaluate, and communicate information to explain the properties of waves. 

a. Analyze and interpret data to identify the relationships among wavelength, frequency, and energy in electromagnetic waves and amplitude and energy in mechanical waves. 

b. Ask questions to compare and contrast the characteristics of electromagnetic and mechanical waves. 

c. Develop models based on experimental evidence that illustrate the phenomena of reflection, refraction, interference, and diffraction. 

Learning Targets:

SPS9a:  We are learning to explain the relationship between amplitude and energy in a mechanical wave based on data analysis and interpretation.

Success Criteria: I will know I am successful when I can . . .

• 

  Identify, define, and draw longitudinal waves, labeling all parts.

• 

  Understand that mechanical waves can be longitudinal or transverse.

• 

  Relate the energy of a mechanical wave to its amplitude.  

Lesson/Activity

-Daily 10 Questions

-Unit 9 Quiz Retakes 

-Intro to Unit 10

-Guided Reading Packet: Waves

-Brainpop: Waves

-Parts of a Wave WS (Flocabulary) 

-Finish Bill Nye

Resources:

Teacher Created Materials, Edpuzzle, Flocabulary 

Friday

SPS9. Obtain, evaluate, and communicate information to explain the properties of waves. 

a. Analyze and interpret data to identify the relationships among wavelength, frequency, and energy in electromagnetic waves and amplitude and energy in mechanical waves. 

b. Ask questions to compare and contrast the characteristics of electromagnetic and mechanical waves. 

c. Develop models based on experimental evidence that illustrate the phenomena of reflection, refraction, interference, and diffraction. 

Learning Targets:

SPS9a:  We are learning to explain the relationship between amplitude and energy in a mechanical wave based on data analysis and interpretation.

SPS9b: We are learning to compare/contrast characteristics of electromagnetic and mechanical waves.

Success Criteria: I will know I am successful when I can . . .

• 

  Identify, define, and draw longitudinal waves, labeling all parts.

• 

  Understand that mechanical waves can be longitudinal or transverse.

• 

  Relate the energy of a mechanical wave to its amplitude. 

• 

   Explain the difference in electromagnetic and mechanical waves in terms of medium and motion

Lesson/Activity

-Daily 10 Questions

-Guided Reading Packet: Wave Types

-Types of Waves Frayer Models (Mechanical, Longitudinal, Transverse, Electromagnetic) 

-Guided Reading Packet: Wave Motion 

-Edpuzzle: Uses of Ultrasonic Waves 

-Begin Ultrasonic Waves Webquest 

-Resources:

Teacher Created Materials, Edpuzzle, Flocabulary