Browse All Lesson Plans |
Lesson Plan Name |
Grades |
Exploring Force and Motion |
7 to 8 |
(0 stars, 1 ratings) Using Flip video moblie lab to create lessons on Force and Motion |
Newton's Laws for One and All! |
8 to 10 |
(0 stars, 1 ratings) In this unit, students will create a digital portfolio of their learning. Students will collaborate on portions of this unit, while other parts are individual. This unit focuses on learning, applying, and working with Newton’s Laws of Motion. It is a layered curriculum unit which has students progressively building in their understanding and use of the laws. |
Time and Motion on Track |
9 to 12 |
(0 stars, 1 ratings) Students will use digital cameras to determine rate, velocity, displacement, and acceleration of their peers walking around a 1/4 mile track. |
You'll Flip Over Forces & Motion |
6 to 8 |
(0 stars, 2 ratings) This hands-on, culminating lesson engages learners and reinforces terminology related to forces and motion learned earlier during the intensive, week-long course.. Essentially, the scavenger hunt was used as a formative assessment to determine students' understanding in a creative and thought-provoking way. |
La Casa de Mis Sueños/My Dream House |
9 to 12 |
(0 stars, 1 ratings) Students will use present tense conjugation and learn vocabulary that describes a house. Students will create visual representation of their dream house using presentation tool of their choice. Students will “walk us through” their houses in small group presentations (6 students + teacher) while we roll a dice to ask questions about each presentation and providing verbal feedback, all in Spanish.
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(PART 1) Applied STEM: Rocketry and its Components |
6 to 8 |
(0 stars, 1 ratings) This unit plan walks students through the entire model rocket design, construction, and test launch phase complete with diverse evaluations and using video technology to view every aspect of a rocket launch. All rockets are homemade - no kits involved. |
Analyzing Motion of a Tossed Ball |
10 to 12 |
(0 stars, 1 ratings) Using digital cameras, students collect videos of their peers making basketball shots or tossing a ball in a parabolic arc. Using Vernier software, the students then analyze the motion of the object. |
Design Team Challenge |
4 to 8 |
Students use technology and engineering skills to create robots. These robots are used to test various math applications, and data tables are used to compare data. |
Digital Rube Goldberg Lesson |
P-K to 12 |
(0 stars, 1 ratings) This lesson requires the use of physics, critical thinking skills, creativity, and group collaboration to create a multi-step Rube Goldberg design that begins as a virtual lab and can become a physical project or competition. |
Let’s Get Excited about Roller Coasters! |
5 to 9 |
(0 stars, 1 ratings) An amusement park has decided to open a theme park to be located in Waikoloa Village, Hawaii. It is an exciting time for the citizens of Waikoloa Village. Finally, this small town will be put on the map for something big. The residents are anxiously anticipating the grand opening of the amusement park. However, the operators of the amusement park need your help. They want to design a new roller coaster with a car that runs as smoothly as a marble would down the track. Your team has been hired to design this new roller coaster track for this theme park. Your task is to design a model of the track you would like to build for this amusement park. Your model must demonstrate the law of conservation of energy, gravity, force, momentum, and especially kinetic and potential energy. |
Let’s Get Excited about Roller Coasters! |
5 to 9 |
(0 stars, 1 ratings) An amusement park has decided to open a theme park to be located in Waikoloa Village, Hawaii. It is an exciting time for the citizens of Waikoloa Village. Finally, this small town will be put on the map for something big. The residents are anxiously anticipating the grand opening of the amusement park. However, the operators of the amusement park need your help. They want to design a new roller coaster with a car that runs as smoothly as a marble would down the track. Your team has been hired to design this new roller coaster track for this theme park. Your task is to design a model of the track you would like to build for this amusement park. Your model must demonstrate the law of conservation of energy, gravity, force, momentum, and especially kinetic and potential energy. |
Motion force and Energy |
6 to 8 |
(0 stars, 2 ratings) Students will be able to identify Newton's three law's of motion through designing and building an amusement ride. |
Reviving the Renaissance |
7 to 12 |
(0 stars, 2 ratings) Using the world wide web, students will research the Renaissance Era and present a multimedia project to classmates which will focus on one aspect of that time period: food, clothing, pastime, gender roles, law enforcement, etc. This is done prior to reading any of Shakespeare's literature. |
Science Claymation - Which Came First, the Chicken or the Egg? |
3 to 6 |
(0 stars, 2 ratings) Students in 3rd - 6th could use the Tool Factory Movie Maker, Stop Motion Pro Software to make Claymation videos about science topics such as life cycles, natural cycles, phyics, and space phenomena. These lesson plans are integrated cross-curricula and incorporate multiple 21st Century skills. |
The Algebra of Angry Birds© |
6 to 8 |
(0 stars, 2 ratings) Angry Birds is a popular application (app) that features birds that are launched from a slingshot at green pigs. Students will explore algebraic and physics content that is embedded in the game. |
The Amazing Race-Physical Science |
9 to 12 |
(0 stars, 1 ratings) The students will compete in a race around the school while reviewing physical science concepts. |
The Physics of Sports: An 8th Grade Physical Science Project |
P-K to P-K |
(0 stars, 1 ratings) Many physics concepts and principles of motion can be observed and studied through sporting events. This activity offers you the opportunity to examine these principles using sporting events as examples. For this activity, you may work alone or as a team of two people. We strongly encourage you to work with a partner due to video-recording and due to the amount of time and effort required to create an I-Movie.
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Want to Drag?! (: |
6 to 8 |
(0 stars, 1 ratings) This lesson plan will present 7th & 8th grade students with engaging, motivating, and fun hands-on engineering opportunity to create, design, fabricate, test, and competitively race scale model cars for aerodynamics and performance |