Undergraduate courses prepare students for direct career and advanced research in engineering or other fields.
1. Aerospace Engineering (Bachelor of Science)
ABET-certified aerospace engineering courses involve the design and construction of various fixed-wing and rotary-wing (helicopter) aircraft for air transportation and national defense. It also involves the design and construction of spacecraft, the exploration and utilization of space and related technical fields.
2. Bioengineering (Bachelor of Science)
In the School of Engineering and Applied Science of Henry Samuelli University, the goal of bioengineering course is to provide students with scientific knowledge and engineering tools necessary for graduate study in engineering or science, continuing education in medical and health care schools or industrial employment. This educational course has three main objectives: (1) to provide students with strict engineering and basic science training; (2) Providing the most advanced knowledge and experience in bioengineering research; (3) Provide problem-solving and team-building skills, so as to achieve success in the field of bioengineering.
3. Chemical Engineering (Bachelor of Science)
The Department of Chemical Engineering conducts undergraduate and postgraduate teaching and research projects in the fields of thermodynamics, statistical mechanics, mass transfer, catalysis, semiconductor material processing, plasma treatment, electrochemistry and corrosion, high-temperature chemical kinetics, reaction engineering, combustion science and environmental reaction engineering, low-temperature and low-temperature processes, biochemical engineering, process system engineering, process integration, computer-aided process design and control, particle technology, pollution control, pollution prevention and polymer engineering. Learners are trained in the basic principles of these fields and learn the sensitivity to society at the same time.
4. Civil Engineering (Bachelor of Science)
The Department of Chemical Engineering conducts undergraduate and postgraduate teaching and research projects in the fields of thermodynamics, statistical mechanics, mass transfer, catalysis, semiconductor material processing, plasma treatment, electrochemistry and corrosion, high-temperature chemical kinetics, reaction engineering, combustion science and environmental reaction engineering, low-temperature and low-temperature processes, biochemical engineering, process system engineering, process integration, computer-aided process design and control, particle technology, pollution control, pollution prevention and polymer engineering. Learners are trained in the basic principles of these fields and learn the sensitivity to society at the same time. '
5. Computer Engineering (Bachelor of Science)
The Henry Samuelli School of Engineering and Applied Science at UCLA will offer a new undergraduate major: computer engineering in the autumn of 2065. It is managed by the Department of Computer Science and the Department of Electrical and Computer Engineering (formerly the Department of Electrical Engineering). How does computer engineering compare with computer science, computer science and engineering, and electrical engineering?
6. Computer Science (Bachelor of Science)
The course of computer science is designed for students who want to make professional preparation in computer science, but have no strong interest in computer system hardware. Courses include the main components of computer science, secondary or technical support fields, and core courses of social science, life science and humanities. In the course, students study topics such as software engineering, programming language principles, data structures, computer architecture, computing theory and formal languages, operating systems, distributed systems, computer modeling, computer networks, compiler construction and artificial intelligence. Specializing in preparing for employment in various industrial and commercial environments.
7. Computer Science and Engineering (Bachelor of Science)
Computer science and engineering courses are certified by Abbett and CSAB of UCLA, and provide education and training necessary for designing, implementing, testing and utilizing hardware and software of digital computers and digital systems. The course is mainly composed of computer science and electronic engineering departments. In this course, students will learn electronic design to logic design, MSI, LSI and VLSI concepts and equipment use, machine language design, implementation and programming, operating system concepts, system programming, network basic knowledge, advanced language skills and their application in the system. Students will find jobs in high-tech industries that use information and digital systems.
9. Materials Engineering (Bachelor of Science)
Based on material science, the course of material engineering certification focuses on the design, manufacture and optimization of engineering materials, and must meet the requirements of size, performance, quality control and economy at the same time. It is specially designed for students who want to know the relationship between microstructure and properties of materials. Courses include the design, manufacture and testing of metals, ceramics and polymers, as well as metals and other materials such as oxides, glass and fiber reinforced composites. This major has the option of electronic materials. For more details, please refer to the general catalogue.
10. Mechanical Engineering (Bachelor of Science)
ABET-certified mechanical engineering courses aim to provide basic knowledge of thermodynamics, fluid mechanics, heat transfer, solid mechanics, mechanical design, dynamics, control, mechanical systems, manufacturing and materials. This course includes basic subjects that are important to all mechanical engineers, including design and manufacturing, dynamics and control, fluid and thermal energy engineering.