Students will compare different plant traits and determine how each structure helps that species of plant grow and reproduce in the schoolyard habitat. After which, students can observe each plant for acquired traits.

In this lesson, students use the real-world application of insect monitoring to practice their fluency with addition and subtraction.

Students will listen to the text and explore the garden to connect details from the text to their surroundings.

Students learn about atoms and their structure (protons, electrons, neutrons) — the building blocks of matter. They see how scientific discoveries about atoms and molecules influence new technologies developed by engineers.

Students identify different bridge designs and construction materials used in modern day engineering. They work in construction teams to create paper bridges and spaghetti bridges based on existing bridge designs. Students progressively realize the importance of the structural elements in each bridge. They also measure vertical displacements under the center of the spaghetti bridge span when a load is applied. Vertical deflection is measured using a LEGO MINDSTORMS(TM) NXT intelligent brick and ultrasonic sensor. As they work, students experience tension and compression forces acting on structural elements of the two bridge prototypes. In conclusion, students discuss the material properties of paper and spaghetti and compare bridge designs with performance outcomes.

Everyday we are surrounded by circuits that use "in parallel" and "in series" circuitry. Complicated circuits designed by engineers are composed of many simpler parallel and series circuits. During this activity, students build a simple series circuit and discover the properties associated with series circuits.

Athletes often wear protective gear to keep themselves safe in contact sports. In this spirit, students follow the steps of engineering design process as they design, build and test protective padding for an egg drop. Many of the design considerations surrounding egg drops are similar to sports equipment design. Watching the transformation of energy from potential to kinetic, observing the impact and working under material constraints introduces students to "sports engineering" and gives them a chance to experience some of the challenges engineers face in designing equipment to protect athletes.

Students will use their knowledge of appropriate tools and units and determine when to measure liquid volume or weight.

What do you want to be when you grow up? Take a look at multiple career interviews to help narrow the field!

Bycatch can be defined as the act of unintentionally catching certain living creatures using fishing gear. A bycatched species is distinguished from a target species (the animal the gear is intended to catch) because it is not sold or used. Marine mammals (whales, dolphins, porpoises), seabirds, sea turtles and unwanted or undersized fish are some examples of animals caught as by-catch The incidental capture of these animals can significantly reduce their populations. The most well known example of by-catch may be the unintentional mortality of spotted and spinner dolphins in the tuna fishing industry. "Dolphin-Safe" tuna was a result of this interaction (Be prepared to discuss how this came about with students, as it is something close to their daily lives). One important aspect to consider when discussing this issue is that laws protect some of the animals caught as by-catch (Marine Mammal Protection Act and Endangered Species Act). In this lesson, students will first be shown pictures of entangled marine animals and will discuss the definition of by-catch This will lead to discussions on why by-catching exists, how it impacts specific animals as well as humans, whether the students believe it is an important issue, and how by-catch can be reduced.

In this lesson, students will formulate and interpret cause-and-effect relationships using a 3-column chart to organize their ideas. Students will apply the concept of "cause" as something that always happens first, and the effect is the resulting outcome (or what happens second).

STUDENT ACTIVITY - 5th - TX/NCThis is a distance-learning lesson students can complete at home. In this lesson, the student will formulate and interpret cause-and-effect relationships using a 3-column chart to organize their ideas. The student will apply the concept of "cause" as something that always happens first, and the effect as the resulting outcome (or what happens second).This activity was created by Out Teach (out-teach.org), a nonprofit providing outdoor experiential learning to transform Science education for students in under-served communities.

In this lesson, students will formulate and interpret cause-and-effect relationships using a 3-column chart to organize their ideas. Students will apply the concept of "cause" as something that always happens first, and the effect is the resulting outcome (or what happens second).

Similar to how Charlotte uses her web to communicate, students create webs for short messages. They learn how spiders create their webs, and about the different types of webs they make. With this knowledge, students design and create their own webs and incorporate messages.

Working in engineering project teams, students evaluate sites for the construction of a pyramid. They base their decision on site features as provided by a surveyor's report; distance from the quarry, river and palace; and other factors they deem important to the project based on their team's values and priorities.

Esta es una lección para el aprendizaje a distancia que los alumnos pueden completar en casa.Los estudiantes utilizarán el conocimiento de los ciclos de vida para recopilar evidencia de las etapas de la vida por las que pasa una planta.Esta actividad fue creada por Out Teach (out-teach.org), una organización sin fines de lucro que proporciona aprendizaje experiencial al aire libre, con el objetivo de transformar la educación de las ciencias para los estudiantes en comunidades más desatendidas.

Observarás y compararás diferentes objetos y podrás identificar las diferentes propiedades de la materia. Esta actividad fue creada por Out Teach (out-teach.org), una organización sin fines de lucro que proporciona aprendizaje experiencial al aire libre, con el objetivo de transformar la educación de las ciencias para los estudiantes en comunidades más desatendidas.

STUDENT ACTIVITY - 4th - NCThis is a distance-learning lesson students can complete at home.The student will observe, compare different objects, and be able to identify the properties of specific materials.This activity was created by Out Teach (out-teach.org), a nonprofit providing outdoor experiential learning to transform Science education for students in under-served communities.

Students will observe, compare different objects, and be able to identify the properties of specific materials.

Students investigate decomposers and the role of decomposers in maintaining the flow of nutrients in an environment. Students also learn how engineers use decomposers to help clean up wastes in a process known as bioremediation. This lesson concludes a series of six lessons in which students use their growing understanding of various environments and the engineering design process, to design and create their own model biodome ecosystems.