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Search results for School Environment:
| Browse All Lesson Plans |
| Lesson Plan Name |
Grades |
| Digital Decodable Books |
K to 3 |
 (0 stars, 1 ratings) Creating decodable books using PowerPoint to improve speed and accuracy of sight word recognition. |
| Finding the Tipping Point |
11 to 12 |
(0 stars, 2 ratings) Students will read and analyze Malcolm Gladwell's Tipping Point and then apply their understanding of the book to their school. |
| Forces and Motion Scavenger Hunt |
P-K to 5 |
| Students will work in small groups to identify and photograph things that we push or pull in our real world. |
| Geometry Film Makers |
3 to 5 |
(0 stars, 1 ratings) Students will apply their knowledge of geometric concepts related to the world around them. The use of flip cameras will enable students to explain the distinguishing characteristics of key geometric vocabulary as they develop movie clips that will be used in the creation of a short film. |
| Kinderbet-An Alphabet for Children |
P-K to K |
(0 stars, 2 ratings) Kindergarten children will brainstorm and search the classroom and campus for objects that begin with each letter of the alphabet. They will photograph each item and create both a power point and a written book to be presented to the library. |
| Let's Talk! |
P-K to P-K |
(0 stars, 1 ratings) We will use photos taken with a digital camera to make communication boards that enable our non-verbal students to communicate with their peers and teachers. |
| Persistence of Vision: Animation I |
10 to 12 |
| Students will study the early history of moving pictures as an introduction to the concept of persistence of vision and animation. Students will develop a final animation which utilizes a variety of animation sequences: computer drawn, stop motion, hand drawn, with a 6.0 megapixel Olympus digital camera and the Tool Factory software MultiMedia Lab V. |
| Sea Scallop Data Mining Research Project |
10 to 12 |
(0 stars, 1 ratings) Students develop a research question and then gather the data to answer that question using the National Oceanic and Atmospheric Administration's Sea Scallop Survey database. Students present the results in a formal classroom presentation and a scientific poster session which is open to the public. |
| Symmetry in Nature and Congruent Shapes All Around |
2 to 2 |
(0 stars, 1 ratings) All students will work in groups to investigate nature and their surroundings to find symmetry in nature and congruent shapes all around. Students will take photos using a digital camera and help create a multimedia presentation of their geometric findings. Students will share the final project with their peers. |
| The Geometry Amazing Race for High School Students |
8 to 12 |
(0 stars, 2 ratings) Students groups will be able to use digital cameras to site evidence of geometry work completed at different country location stations or tasks given by teachers.
Students groups will apply properties of polygons, determine distances, points of concurrence, and justify answers. Integrated subjects of trigonometry and algebra will be visited. |
| Tour Guide of WIllow Bend |
K to 6 |
(0 stars, 1 ratings) Second language learners (ELL) will create a tour of Willow Bend School reflecting on what a newcomer would need to know. Students will use their past experiences to compare and contrast Willow Bend to other schools around the world. The video will include all aspects of school; teachers, support staff, locations, activities, etc. |
| Twenty-First Century Social Skills Instruction |
2 to 5 |
(0 stars, 2 ratings) This project uses video taped self modeling technique to help students learn and practice appropriate social behaviors. |
| Walk a Day in my Moccasins |
P-K to 5 |
| Using a video camcorder to record a day in the life of another student who either is ELL or ESL or Special Needs (Austism) so that other students can see how these students deal with the challenging day at school. |
| What's Living in the Water? |
6 to 12 |
(0 stars, 1 ratings) Students assess water quality of a local pond through observation and testing. Students link changes in seasons to changes in water quality. |
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