In this hands-on activity, students explore the electrical force that takes place …
In this hands-on activity, students explore the electrical force that takes place between two objects. Each student builds an electroscope and uses the device to draw conclusions about objects' charge intensity. Students also determine what factors influence electric force.
In this activity, learners consider the requirements for human life beyond Earth's …
In this activity, learners consider the requirements for human life beyond Earth's protection: air to breathe, plentiful food, shielding from ultraviolet light, power, etc. They then work in teams to design and construct a model of a space colony out of craft materials that would allow humans to survive the harsh environments of the Moon or Mars. Teams present their modules and colonies to one another and create a display for the library. This activity is part of Explore! To the Moon and Beyond! - developed specifically for use in libraries.
In this activity, learners build a sextant to measure the altitude, or …
In this activity, learners build a sextant to measure the altitude, or height above the horizon, of an object. The activity was originally designed to accompany a previous NASA-funded educational program, entitled The Sun in Time.
Motivating a reluctant student to complete schoolwork is not easy. In a …
Motivating a reluctant student to complete schoolwork is not easy. In a typical classroom, students can choose from a number of sources of potential reinforcement (Billington & DiTommaso, 2003)--and academic tasks often take a back seat to competing behaviors such as talking with peers. One way that teachers can increase the attractiveness of schoolwork is by structuring lessons or assignments around topics or activities of high interest to the student (Miller et al., 2003).In fact, with planning, the teacher can set up a 'trap' that uses motivating elements to capture a student's attention to complete academic tasks (Alber & Heward, 1996). Here is a 6-step blue-print for building an academic 'motivation trap' (adapted from Alber & Heward, 1996).
Working as if they are engineers who work for (the hypothetical) Build-a-Toy …
Working as if they are engineers who work for (the hypothetical) Build-a-Toy Workshop company, students apply their imaginations and the engineering design process to design and build prototype toys with moving parts. They set up electric circuits using batteries, wire and motors. They create plans for project material expenses to meet a budget.
Students create their own anemometers instruments for measuring wind speed. They see …
Students create their own anemometers instruments for measuring wind speed. They see how an anemometer measures wind speed by taking measurements at various school locations. They also learn about different types of anemometers, real-world applications, and how wind speed information helps engineers decide where to place wind turbines.
Students create models of objects of their choice, giving them skills and …
Students create models of objects of their choice, giving them skills and practice in techniques used by professionals. They make sketches as they build their objects. This activity facilitates a discussion on models and their usefulness.
Students build miniature model cities using sugar, bouillon and gelatin cubes. The …
Students build miniature model cities using sugar, bouillon and gelatin cubes. The cities are put through simulated earthquakes to see which cube structures withstand the shaking movements the best.
This is an activity about the moon. Learners will create their own …
This is an activity about the moon. Learners will create their own models of lunar orbiters out of edible or non-edible materials. They determine what tools would be necessary to help us better understand the Moon and plan for a future lunar outpost. Then they incorporate these elements into their models. NASA's Lunar Reconnaissance Orbiter is used as an example of a spacecraft armed with "eyes," "ears," and other tools for exploration. This activity is part of Explore! To the Moon and Beyond! - a resource developed specifically for use in libraries.
Student groups construct simple conductivity probes and then integrate them into two …
Student groups construct simple conductivity probes and then integrate them into two different circuits to test the probe behavior in solutions of varying conductivity (salt water, sugar water, distilled water, tap water). The activity culminates with student-designed experiments that utilize the constructed probes. The focus is to introduce students to the fabrication of the probe and expose them to two different ways to integrate the probe to obtain qualitative and quantitative measurements, while considering the application and utility of a conductivity probe within an engineering context. A provided handout guides teams through the process: background reading and questions; probe fabrication including soldering; probe testing and data gathering (including circuit creation on breadboard); probe connection to Arduino (including circuit creation and code entry) and a second round of testing and data gathering; design and conduct their own lab experiments that use the probes; online electrolyte/nonelectrolyte reading, short video, comprehension check and analysis questions.
Starting off the year strong by building relationships and trust with parents …
Starting off the year strong by building relationships and trust with parents through an early welcome. This video was created by Jessica Wall and Pam Sawatzky for the 2021-22 Sun West iLearn sessions.A strategy guide for educators is also included.
Students learn about atoms and their structure (protons, electrons, neutrons) — the …
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.
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