Robotnix.Dev
Build. Hack. Learn. Repeat.
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Robotics I: Foundations of Robotic Systems
First-year college-level robotics built on real science and real math. Covers sense-think-act systems, DC circuits and Ohm's Law, Newton's Laws and torque, microcontrollers, sensors, actuators, structured programming, and a full mobile robot capstone. Platform-agnostic engineering fundamentals.
Robotics II: Intelligent Systems, Control, and Design
Second-year college-level robotics built on real control theory and motion math. Covers system architecture, finite state machines, PID control, differential drive kinematics, sensor fusion, autonomous navigation, mechanism design, and a validated capstone system. No platform dependency - pure engineering.
VEX V2.0
Unified VEX pathway: EXP builds and STEM Labs, V5 drivetrains and sensors, and VR Blocks/Python coding — three platforms in one self-paced course.
Sustainable Engineering & Design
Self-paced sustainable engineering built on the Intro to Sustainability text: systems thinking, feedback mapping, circular design, and climate/materials engineering that culminate in capstone solutions to wicked problems.
Technology, Engineering & Social Responsibility
Self-paced TESR pathway: digital citizenship, privacy and cybersecurity, AI/data fairness, platform and labor impacts, plus a full social-good capstone.
Career Pathways, Ethics & Social Impact
Self-paced career pathway focused on ethics, community outcomes, responsible decision-making, projects, case studies, and financial literacy.
Electronics Engineering I: Foundations of Electrical Systems
Self-paced foundational electronics: circuit fundamentals, Ohm's Law, power, resistive networks, AC circuits, semiconductors, digital logic, microcontroller basics, and safety systems.
Electronics Engineering II: Advanced Applications
Self-paced advanced electronics: precision analog circuits, filters, oscillators, power conversion, data acquisition, signal processing, communications, sensor interfaces, digital systems, embedded integration, PCB design.
CS1337: Foundations of Computing, Networks, and Defensive Security
Defensive CS-to-cyber pathway focused on computational thinking, programming logic, networking literacy, CIA triad principles, firewalls, IDS monitoring, risk analysis, and governance without offensive hacking workflows.
Python Programming: From Fundamentals to Advanced Applications
Self-paced Python programming: fundamentals and syntax, control flow, functions, data structures, file I/O, OOP, libraries and modules, data analysis, web development, databases, testing, and a capstone application project.
Drone Engineering
Self-paced enrichment track covering flight dynamics, control, sensing, autonomy, and systems engineering through a drone-focused lens.