Electrical Engineering
The Bachelor of Science in Electrical Engineering at University of Stanford provides students with a comprehensive education in electrical systems, electronics, signal processing, and energy technologies. In the early years, students build a strong foundation in mathematics, physics, circuit theory, and computer programming. These courses develop analytical thinking, technical proficiency, problem-solving skills, and quantitative reasoning, enabling students to understand the fundamental principles of electrical engineering and prepare for advanced studies. Through lectures, laboratory exercises, and hands-on projects, learners gain practical experience in designing and analyzing electrical circuits, systems, and devices.
As students advance, the curriculum emphasizes electronics, communications, control systems, power systems, signal processing, and embedded systems. Independent research, advanced laboratory work, and seminars refine students’ technical expertise, research methodology, critical evaluation, and applied engineering skills. The honors curriculum encourages students to tackle complex engineering challenges and develop innovative solutions for real-world applications. By graduation, students are prepared for careers in electrical engineering, telecommunications, robotics, energy systems, electronics design, or graduate study in electrical engineering and related fields.
Key information
Key Facts
- Program Title: Electrical Engineering
- Degree Type: Bachelor of Science
- Duration: 4 years
- Mode of Study: Full-time, On Campus
- Application Deadline: 05 January 2026
- Location: Stanford University, United States
- Field of Study: Electrical Engineering
- Language of Instruction: English
Program Structure
Year 1 – Foundations in Electrical Engineering
• Introduction to Electrical Engineering
• Calculus and Linear Algebra
• Physics for Engineers
• Programming and Computational Methods
• Writing and Research in Engineering
Year 2 – Core Electrical Engineering Studies
• Circuit Analysis and Electronics
• Signals and Systems
• Digital Systems and Microprocessors
• Electromagnetics and Physics Applications
• Seminar: Engineering Methods
Year 3 – Advanced Applications
• Control Systems and Automation
• Communications and Signal Processing
• Power Systems and Energy Technology
• Independent Research Projects
• Electives in Electrical Engineering or Related Fields
Year 4 – Capstone and Honors Project
• Senior Thesis or Independent Research Project
• Advanced Seminar in Electrical Engineering
• Applied Laboratory and Design Projects
• System Simulation and Performance Evaluation
• Specialized Electives in Electrical Engineering
Career Opportunities
Graduates of this program are prepared for careers in electrical engineering, telecommunications, robotics, electronics design, energy systems, and research. The curriculum develops technical proficiency, analytical reasoning, problem-solving skills, and research expertise, enabling students to pursue roles as electrical engineers, systems designers, telecommunications specialists, robotics engineers, or research scientists. Independent projects, laboratory work, and applied design projects provide practical experience, while the honors track strengthens preparation for graduate study or professional specialization. Graduates leave ready to design, analyze, and optimize electrical systems in diverse industrial and research settings.
Why Choose This Program
This program is ideal for students who wish to study electrical systems, electronics, and energy technologies within a rigorous and research-focused curriculum. Its structure emphasizes critical thinking, technical competence, problem-solving skills, and research proficiency, providing students with both theoretical understanding and hands-on experience. Through seminars, independent projects, laboratory work, and design challenges, learners develop the skills to design, simulate, and evaluate complex electrical systems, ensuring practical and innovative solutions. Graduates leave with the expertise, confidence, and professional readiness to pursue careers in electrical engineering, technology development, research, or advanced academic study, contributing meaningfully to industry and scientific innovation.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 650 000 0000
Email: admissions@standord.edu
Address: University of Standord, 450 Serra Mall, Stanford, CA 94305, United States
