A hands-on 4th-grade science sequence exploring energy transfer, thermal design, and data-driven climate analysis through weather tracking and solar oven engineering.
A multi-grade collection of scientific reading comprehension and response booklets designed to build disciplinary literacy in Earth, Life, and Physical sciences across elementary and middle school levels.
A hands-on coding lesson where students program Sphero Mini robots through physical challenges, using systematic trial-and-error analysis to refine their predictions of heading, speed, and duration.
A 2-page instructional and setup guide for teachers facilitating the Sphero Orbit Trials. Includes arena dimensions, calibration techniques, pacing guides, troubleshooting strategies, and key inquiry questions to guide student diagnostics.
An earth and space science curriculum unit covering dynamic earth processes, earthquake wave mechanics, atmospheric pressure systems, and weather prediction techniques.
A comprehensive 4th-grade science lesson exploring the relationship between speed and energy. Students examine how speed impacts kinetic energy and energy transfer using hands-on examples like colliding objects and ramp racers.
A revised single-page student coding log for Sphero Mini robots. The table rows and block sizes have been vertically expanded to take up the full physical footprint of a standard 8.5x11 letter-sized paper, maximizing writing space for student measurements.
A hands-on engineering lesson where 4th graders explore thermal energy transfer, conduction, radiation, and convection by designing and testing solar ovens.
A comprehensive teacher facilitation guide featuring essential questions, standard alignments, science background explanations, and strategies for correcting common student misconceptions about speed and energy.
A set of 8 printable task cards (4 fronts with engaging scenarios, 4 backs with comprehensive scientific answers) exploring kinetic energy, collisions, and ramp slopes.
A two-page interactive student workbook featuring fill-in-the-blank definitions, speed calculations/diagrams, and ramp collision prediction scenarios.
