Both AP courses run a full 32-week sequence and are tracked inside the Lab Studio LMS — lessons, quizzes, discussions, and progress all in one place.
College-level chemistry: atomic structure, bonding, stoichiometry, thermodynamics, kinetics, and equilibrium. Full AP exam alignment.
Master atomic structure & periodic trends · Balance and classify chemical equations · Apply stoichiometry in lab calculations · Analyze enthalpy, entropy & Gibbs free energy · Solve kinetics and equilibrium problems · Prepare for the AP exam
Advanced · 32 weeksKinematics, Newtonian dynamics, energy, momentum, rotational motion, oscillations, waves, and DC circuits.
Analyze motion using kinematics · Apply Newton's laws to real scenarios · Solve energy and momentum problems · Understand waves and simple harmonic motion · Analyze basic DC circuits · Prepare for the AP exam
Advanced · 32 weeksEvery STEM Frontiers student builds the same foundation: safe lab practice, then a real engineering design cycle.
Essential lab safety, MSDS, PPE, the scientific method, measurement, data collection, and error analysis. Required for all STEM students.
Identify laboratory hazards · Select and use correct PPE · Follow MSDS and chemical safety protocols · Apply the scientific method · Record and analyze data with proper sig figs
Beginner · 2 weeksMaker-focused engineering design: prototype, test, iterate. Students take a project from concept through working build.
Hands-onSTEM Frontiers runs as a set of focused cohorts inside the LMS, each with its own pace and roster.
Atomic structure, bonding, kinetics, and equilibrium for the Period 1 section.
Second section of college-level chemistry, same full curriculum.
Algebra-based mechanics, waves, and electricity.
Maker-focused design: prototype, test, iterate.
High-performing students selected for advanced projects and leadership.
Applied AI, innovation, and advanced maker projects across the program.
Professional development for STEM educators who want to bring this same model — AP rigor paired with maker-style engineering design — into their own classrooms.
Hands-on robotics, sensors, and automation systems — a track shared across student and educator cohorts.
STEM leadership, communication, and teamwork skills woven through every track.
Lessons, quizzes, discussions, certificates, and a parent view of progress — students, teachers, and families all use the same portal.
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