Teacher Activity Center

Energy Efficiency,

Energy Fundamentals,

Solar Photovoltaic

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Learning Goal(s):

1. Students will document necessary terms in their journals 2. Students will be able to set up a multimeter to measure voltage 3. Students will be able to set up a multimeter to measure current 4. Students will be able to calculate power from data collected 5. Students should be able to measure the collector area of a solar module (area of solar cell(s) within solar module) and represent this value in square meters (m^2)

Pedagogy & Practice:

Hands-on Materials,

Research-Secondary

NGSS Science and Engineering Practices:

8: Obtaining, Evaluating, and Communicating Information

Author:

Brett McFarland

Relevant NGSS PE:

MS-ETS1-3,

MS-PS2-3,

Other Subjects Covered:

ELA: Reading: Scientific & Technical,

ELA: Writing,

ELA: Vocabulary Development,

Math: Addition, Subtraction, Multiplication, Division,

Estimated Activity Length:

4 hours

Activities and Assessment of Vocab and Units

Grades:

7-12

Unit:

Lesson Number:

Description:

This lesson is intended as a way to check for student understanding regarding the content presented in the previous lesson of this unit. The assessment takes place in two parts: a written assessment of content-related vocabulary and concepts as well as a...

Energy Content:

Energy Efficiency,

Energy Fundamentals

More Details Less Details

Learning Goal(s):

Students will be able to define voltage, current, power and energy as it relates to electricity.Students will be able to define electricity and have the units for all the above terms in their Journals.Students will be able to set up multimeters for voltage and current and will be assessed on this.

Pedagogy & Practice:

NGSS Science and Engineering Practices:

7: Engaging in Argument from Evidence

Author:

Brett McFarland

Relevant NGSS PE:

4-PS3-2,

Other Subjects Covered:

ELA: Writing,

ELA: Vocabulary Development

Estimated Activity Length:

2 hours

Phone Charger Efficiency

Grades:

7-12

Unit:

Lesson Number:

Description:

This is part of the Off the Grid Unit. In this lesson students will explore the concept of efficiency , and how to take data in order to calculate the efficiency of various cell phone or USB charging circuits. They will complete this process by using a...

Energy Content:

More Details Less Details

Learning Goal(s):

1. Students will use multimeters to measure voltage and current in circuits. 2. Students will use collected data and be able to make power calculations from this data. 3. Students will also be able to calculate efficiency from their power calculations. 4. Students will be able to compare efficiencies in order to identify the circuit that is most efficient. 5. Students will be able to make circuits from a diagram and vice versa.

Pedagogy & Practice:

NGSS Science and Engineering Practices:

8: Obtaining, Evaluating, and Communicating Information

Author:

Brett McFarland

Relevant NGSS PE:

Other Subjects Covered:

Math: Addition, Subtraction, Multiplication, Division,

Math: Graphing & Representation

Estimated Activity Length:

2 hours

Exploring Buck and Boost Converters

Grades:

7-12

Unit:

Lesson Number:

Description:

This lab uses a variety of voltage conversion devices to output 5 Volts, the requirements for a USB charger such as for a cell phone. Students will take data on these devices and calculate, graph and compare efficiencies of different devices. Devices used...

Energy Content:

More Details Less Details

Learning Goal(s):

Pedagogy & Practice:

NGSS Science and Engineering Practices:

1: Asking Questions and Defining Problems,

6: Constructing Explanations and Designing Solutions,

8: Obtaining, Evaluating, and Communicating Information

Author:

Brett McFarland

Relevant NGSS PE:

Other Subjects Covered:

Estimated Activity Length:

3 hours

DC to AC to DC Efficiency

Grades:

7-12

Unit:

Lesson Number:

Description:

This is part of the Off the Grid Unit. This lesson will continue to deal with efficiency of USB charging devices, but this time we will be using an inverter in order to create AC voltage from a battery pack, and then use a standard AC charger (what you...

Energy Content:

Electrical Energy

More Details Less Details

Learning Goal(s):

Pedagogy & Practice:

NGSS Science and Engineering Practices:

6: Constructing Explanations and Designing Solutions,

8: Obtaining, Evaluating, and Communicating Information

Author:

Brett McFarland

Relevant NGSS PE:

Other Subjects Covered:

Estimated Activity Length:

3 hours

Biolite - Fire to Phone Charging

Grades:

7-12

Unit:

Lesson Number:

Description:

This is the 6 th part in the Off the Grid Unit. This lesson continues to look at the efficiency of USB charging devices, but this time we will be using a commercially available camping stove that uses heat to create electricity in order to charge a phone....

Energy Content:

Energy Efficiency,

Energy Fundamentals,

Thermal Energy (Heat)

More Details Less Details

Learning Goal(s):

1. Students will use thermometers and a stopwatch to calculate power. 2. Students will use collected data and be able to make power calculations from this data. 3. Students will also be able to calculate efficiency from their power calculations. 4. Students will be able to compare efficiencies to other circuits tested in this unit. 5. Students will know what the Peltier Junction does.

NGSS Science and Engineering Practices:

7: Engaging in Argument from Evidence

Author:

Brett McFarland

Relevant NGSS PE:

Other Subjects Covered:

Math: Addition, Subtraction, Multiplication, Division,

Estimated Activity Length:

1 hour

Designing a Solar Phone Charger

Grades:

7-12

Unit:

Lesson Number:

Description:

This is the culminating activity for the unit “Off the Grid.” Students will be given some restricted parameters around which to design a solar powered battery operated phone (or other USB device) charger . They will charge the AA battery packs that have...

Energy Content:

Solar Photovoltaic

More Details Less Details

Learning Goal(s):

1. Students will be able to design a device that can charge a phone with 4 hours of sun a day. 2. Students will use collected data and be able to support their design – i.e. the data will show that the unit will produce enough energy to charge a phone given it receives 4 hours of sun a day. 3. Students will also be able to calculate efficiency from their power calculations. 4. Students will be able to compare efficiencies of their circuit to others tested in this unit. 5. Students can calculate how much energy 4 hours of sunlight can produce on the solar modules they will use.

Pedagogy & Practice:

Engineering Design

NGSS Science and Engineering Practices:

6: Constructing Explanations and Designing Solutions,

7: Engaging in Argument from Evidence

Author:

Brett McFarland

Relevant NGSS PE:

Other Subjects Covered:

Math: Addition, Subtraction, Multiplication, Division,

Estimated Activity Length:

5 hours

Measuring Voltage Using a Microcontroller

Grades:

9-12

Unit:

Robotic Sunflower

Lesson Number:

Description:

In this lesson students will be introduced to series circuits, resistors, a photoresistor and a microcontroller. There’s a lot here, but it boils down to making a voltage divider circuit and measuring the voltage at different points. A second circuit...

Energy Content:

More Details Less Details

Learning Goal(s):

Students will apply Ohm’s Law. Students will use a multimeter to measure current, voltage, and resistance. Students will use a breadboard to set up a series circuit. Students will read circuit diagrams. Students will calculate times for an RC circuit to change state. Students will prove that resistors in series have an equivalent resistance equal to their individual sums. Students will program the Basic Stamp to measure voltage levels in a voltage divider and RC circuit.

Pedagogy & Practice:

21st Century Skills Development,

NGSS Science and Engineering Practices:

8: Obtaining, Evaluating, and Communicating Information

Author:

Pat Blount

Relevant NGSS PE:

HS-ETS1-1,

Other Subjects Covered:

Computer Science,

ELA: Vocabulary Development,

Math: Algebra,

Math: Functions,

Estimated Activity Length:

2 hours

Controlling a Servo

Grades:

9-12

Unit:

Robotic Sunflower

Lesson Number:

Description:

In this lesson students will learn how to control a servo using the Basic Stamp. Then students will combine the photoresistor from the previous lesson with the servo to create a light controlled servo.

Energy Content:

More Details Less Details

Learning Goal(s):

Students will be able to apply the pulse width modulation to a servo from a Basic Stamp. Students will synthesize two circuit designs using one to control the other through the Basic Stamp.

Pedagogy & Practice:

21st Century Skills Development,

Engineering Design,

Project-Based Learning

NGSS Science and Engineering Practices:

5: Using Mathematics and Computational Thinking

Author:

Pat Blount

Relevant NGSS PE:

HS-ETS1-1,

HS-ETS1-4,

Other Subjects Covered:

Computer Science,

Estimated Activity Length:

1 hour

Creating a Light-Tracking Servo

Grades:

9-12

Unit:

Robotic Sunflower

Lesson Number:

Description:

Students will learn how to program the Basic Stamp to use information from two photoresistors to point a servo at a light source. This will be the first degree of freedom for the flower head.

Energy Content:

Electronics,

Light (Visible)

More Details Less Details

Learning Goal(s):

Students will synthesize the previous lesson for light metering and servo control to design a servo controlled by two photoresistors that will track a light source.

Pedagogy & Practice:

21st Century Skills Development,

Engineering Design,

Project-Based Learning

NGSS Science and Engineering Practices:

5: Using Mathematics and Computational Thinking

Author:

Pat Blount

Relevant NGSS PE:

HS-ETS1-1,