Course Catalog

Public Robotnix.Dev Courses

Free, open course materials for robotics, electronics, computing, engineering design, and technology ethics.

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Introductory

Intermediate

Advanced

Enrichment

IROIntroductorySelf-paced year course

Robotics I: Foundations of Robotic Systems

A self-paced entry course in robotics covering safety, chassis design, circuits, motors, programming, sensing, troubleshooting, documentation, and a beginner autonomous helper-robot capstone.

Prerequisites: None
Best for: First robotics course, build teams, and technical notebook practice

R2IntermediateSelf-paced year course

Robotics II: Intelligent Systems, Control, and Design

A self-paced advanced robotics course focused on systems engineering, mechanism trade-offs, modular code, feedback control, multi-sensor integration, autonomous routines, data-driven optimization, and a full intelligent-robot capstone.

Prerequisites: Robotics I or equivalent systems and programming experience
Best for: Students ready for sensors, control, autonomous routines, and design iteration

SEDIntroductorySelf-paced year course

Sustainable Engineering & Design

A year-long 9–12 engineering studio: safety mastery, engineering notebooks, technical sketching, electronics, gears, and a community-focused capstone with four major design briefs.

Prerequisites: None
Best for: Engineering design students working through community-centered design briefs

TESRIntroductorySelf-paced year course

Technology, Engineering & Social Responsibility

Aligned to the Year 1 TESR framework with block-schedule pacing: digital citizenship and cybersecurity, AI/data fairness, platform governance, reverse engineering and technical reporting, and a social-good capstone.

Prerequisites: None
Best for: Students connecting technology choices to ethics, risk, and social impact

ECISRIntroductorySelf-paced year course

Career Pathways, Ethics & Social Impact

A year-long pathway connecting career readiness, financial decision-making, innovation ethics, and social-impact analysis.

Prerequisites: None
Best for: Career readiness, innovation ethics, and social-impact pathway students

DRONEEnrichmentSelf-paced enrichment

Drone Engineering

Self-paced enrichment in flight systems, control, sensing, autonomy, and robotics math with a drone-focused lens.

Prerequisites: Robotics I or instructor approval
Best for: Students exploring flight systems, autonomy, sensing, and robotics math

VEXV2IntermediateSelf-paced pathway

VEX V2.0

Unified VEX pathway combining EXP (Level 1), V5 (Level 2), and VR (Level 3) tracks. Students develop blocks-first programming, hardware literacy, sensor-driven autonomy, and capstone projects across all three platforms.

Prerequisites: None
Best for: Students learning VEX EXP, V5, and VR platforms across a unified coding and robotics pathway

EE1Intermediate36-week course

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.

Prerequisites: Introduction to Electronics Engineering or equivalent lab readiness
Best for: Students moving from electronics fundamentals into electrical systems design

EE2Advanced36-week course

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.

Prerequisites: Electronics Engineering I
Best for: Students studying precision circuits, embedded systems, signal processing, and PCB design

CS1337IntroductorySelf-paced pathway

CS1337: Foundations of Computing, Networks, and Defensive Security

Self-paced computer science to cybersecurity pathway centered on programming logic, systems and networking literacy, CIA triad principles, IDS and monitoring, firewalls, risk analysis, and governance without offensive hacking workflows.

Prerequisites: None
Best for: Students building defensive computing, networking, and security foundations

PYTHONIntroductory36-week course

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.

Prerequisites: None
Best for: Students learning Python from fundamentals through applied capstone work