UNO Course Schedule: What To Expect Week By Week

UNO Course Schedule: Your Complete Guide to Arduino STEM Learning

The UNO course schedule for Arduino-based STEM electronics and robotics education typically runs in 8-12 week semesters, with beginner courses meeting 1-2 times weekly for 1.5-2 hours per session. The most popular entry point is the Arduino Uno Bootcamp, which launches every month with cohorts starting on the first Monday, offering 25+ hands-on projects from LED blinking to sensor integration. Fall 2025 classes began August 25, 2025, and Spring 2026 sessions started January 20, 2026, with Summer 2026 running June 8-July 29, 2026.

Understanding What "UNO Course Schedule" Really Means

When students and parents search for UNO course schedule, they're typically looking for one of two things: the University of Nebraska Omaha's robotics engineering curriculum OR beginner Arduino Uno microcontroller courses for ages 10-18. The Arduino Uno board is the industry-standard entry point for STEM electronics education, featuring 14 digital I/O pins, 6 analog inputs, and an ATmega328P microcontroller that teaches Ohm's Law, circuit design, and embedded programming.

uno course schedule what to expect week by week

Research published in the International Journal of Technology in Education and Science found that Arduino-based activities significantly influence students' awareness of careers in science and technology, with hands-on electronics work shaping interest in future STEM professions. Unlike software-only coding, Arduino connects code to physical outcomes students can see and touch, which research consistently links to higher motivation and deeper understanding.

University of Nebraska Omaha Robotics Engineering Minor Schedule

For college-level students, the robotics engineering minor at UNO requires 18 credits across three core areas and three electives, available to all majors with advisor consultation. The curriculum jointly administered by Electrical and Computer Engineering, School of Computing, and Mechanical and Materials Engineering departments prepares students for careers in automated vehicle design.

Students must select one course from each of the three core topic areas (9 credits) plus three electives with two outside their major department (9 credits). The College of Engineering requires a composite ACT of 24, SAT of 1180, or 3.5 cumulative GPA for admission.

Beginner Arduino Uno Course Schedule for Ages 10-18

For beginner electronics education, Thestempedia.com offers structured Arduino Uno courses designed specifically for students aged 10-18 with no prior coding experience. The free "Introduction to Arduino" course contains nine lessons covering the Arduino IDE, breadboards, pinout diagrams, PWM control, traffic light sequences, RGB LED color mixing, functions, variables, buzzers, binary, shift registers, and button debouncing.

1. Lesson 1: Arduino IDE setup and course overview (45 minutes)
2. Lesson 2: Breadboards and Arduino Uno pinout diagram (60 minutes)
3. Lesson 3: PWM and LED brightness control using analogWrite() (60 minutes)
4. Lesson 4: Traffic light sequence with multiple LEDs (75 minutes)
5. Lesson 5: RGB LED color mixing and 220Ω resistor calculations (75 minutes)
6. Lesson 6: Functions and variables for cleaner code (60 minutes)
7. Lesson 7: Buzzer tones and frequency control (60 minutes)
8. Lesson 8: Binary numbers and shift register implementation (75 minutes)
9. Lesson 9: Button inputs and debouncing algorithms (60 minutes)

Every lesson includes a short video, wiring diagram, code example with explanation, and post-test, running entirely in-browser on phones, tablets, and computers. The course requires no lab setup beyond physical components and works without account creation or subscription.

Live Online Robotics Course Schedule (Grades 8-10)

Seventh Sense Labs offers live online Robotics with Arduino classes through Summer 2026 for grades 8-10, meeting Thursdays 6:00 PM-7:30 PM EST or Tuesdays 6:00 PM-7:30 PM EST. Students build and program their own robots while learning electronics, coding, and engineering principles through hands-on projects.

Summer 2026 STEM camps run six-week sessions starting Monday, July 10, 2023, with classes meeting Monday-Thursday, 9 AM-3 PM, teaching sensor-actuator integration and differential drive robot assembly. The 15-day Robotics and IoT with ESP32 course offers 25+ hours (11 hours theory + 14 hours practical hands-on) for engineering undergraduates.

Key Projects in the Arduino UNO Course Schedule

The Arduino UNO Bootcamp includes 25+ projects progressing from basics to advanced levels, teaching the ATmega328P microcontroller's capabilities. Core projects include LED blinking using the built-in example sketch (File > Examples > Basics > Blink), button-controlled circuits (File > Examples > Digital > Button), and Morse code transmitters using digital pin 12.

Students learn critical wiring techniques: inserting black jumper wires into GND pins on the Arduino and breadboard rail row 15, connecting red wires to pin 13 and breadboard F7, placing LED long legs into positive terminals and short legs into negative, and using 220Ω resistors to prevent LED burnout. The Arduino IDE setup requires selecting Tools > Board > Arduino Uno and Tools > Port > COM3 for proper communication.

"Watching an LED respond to something students wrote themselves is often the moment that changes their relationship with coding." - DevSTEM Course Designer

Advanced modules cover ESP32 programming, IoT Cloud data collection, greenhouse automation kits, and engineering kit mechatronics with MATLAB & Simulink programming for ages 16+. The ESP32 course includes Simple FOC driver 2.3.4, preference library 2.1.0, and USB Type-C connectivity for dual-wheel legged robot control.

Prerequisites and Equipment Requirements

For Arduino Uno beginner courses, students need no prior coding or electronics experience, making it ideal for self-learning with the Education Starter Kit's step-by-step exercises. Required hardware includes an Arduino Uno board ($22-$25), breadboard, jumper wires, LEDs (various colors), 220Ω resistors, 10kΩ resistors, pushbutton switches, and USB cable.

• Arduino Uno board: ATmega328P microcontroller, 14 digital I/O pins (6 PWM), 6 analog inputs, 16 MHz clock
• Breadboard: 830-point solderless prototype board with power rails
• Resistors: 220Ω for LEDs, 10kΩ for pull-down button circuits
• USB cable: Type-A to Type-B for Arduino Uno programming
• Software: Free Arduino IDE (latest version) from arduino.cc

For college robotics minors, high school requirements include 4 units mathematics (2 algebra, 1 geometry, 1 precalculus/trigonometry), 4 units English, 3 units natural sciences (1 physics, 1 chemistry), 2 units foreign language, and 3 units social studies. Chemistry is waived for computer science students.

Enrollment Deadlines and Academic Calendar

UNO's academic calendar shows Summer Semester 2026 runs June 8-July 29, 2026, with Fall 2025 classes beginning August 25, 2025. Spring Semester 2026 started January 20, 2026, with the last day to add classes on January 28 and last day to drop on February 9. The final authority for course offering changes rests with academic departments, so students should check back often for new offerings.

For MavLINK enrollment, students sign into the university portal after class search, with complete course descriptions and prerequisites available in the online course catalog. Course offerings change frequently, and time/location updates appear within the course schedule.

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