…use of IoT devices offers a final system-based layer for students to encounter. Because communication with their enclosure happens via remote microcontroller boards (currently moderated via micro:bit devices), students gain…
…Circuit JSON, shared on Firebase { “battery”: { “voltage”: 9, “connections”: “1, 2” }, “resistor-a”: { “resistance”: 100, “connections”: “2, 3” }, “resistor-b”: { “resistance”: 100, “connections”: “3, 1” }…
…15 panels, output: 5,018 kWh (total: 10,494 kWh) — 335 kWh/panel Row 3, 15 panels, output: 4,437 kWh (total: 14,931 kWh) — 296 kWh/panel T-wing 2×5 array, 10 panels, output:…
…students need more projects that are modest in length, tackle real-world problems, and are connected to science and math, as well as to engineering standards. The Model Solar House, developed…
…thinking about energy is complicated. Electricity, for example, is generated by a variety of sources: coal-fired power plants, nuclear power plants, biomass-fired power plants, natural gas-fired power plants, hydroelectric power…
…Jie: Currently yogurt-X (a pseudonym of my favorite brand). Eric: How much is it? Jie: $1.59 Eric: That’s expensive. Jie: No, it’s not. Eric: It is. Take a look at…
…launched in 1996, the International Netcourse Teacher Enhancement Coalition (INTEC) was one of the first web-based online professional development programs. Funded by the National Science Foundation, INTEC created and delivered…
…the planet. This lesson, created originally for ninth grade students, features two interactive models created with NetLogo, each designed to support student learning through inquiry. Students should be encouraged to…
…of computer-generated student data to improve education. The DRIP problem worsens when learning becomes more open-ended because: 1) the supporting software can generate more types of data as students explore…
…$1,195, the educational price is now $896.25. For an I5 camera, the educational price is now $1196.25. These prices may be even lower if a school purchases ten cameras, or…