B.A. in Accounting
Washington State University - Vancouver offers a comprehensive B.A. in Accounting progr...
B.S. in Electrical Engineering
Vancouver, Washington, USA
INTAKE: Jan & Aug
Program Overview
Washington State University - Vancouver's B.S. in Electrical Engineering program provides students with a comprehensive education in the principles and applications of electrical engineering. The program encompasses a wide range of topics, including circuit theory, electronics, digital systems, control systems, and communication systems. Students gain hands-on experience through laboratory work, design projects, and internships, preparing them for careers in various industries that rely on electrical engineering expertise.
STEM Designated: The B.S. in Electrical Engineering program at Washington State University - Vancouver is designated as STEM (Science, Technology, Engineering, and Mathematics). This designation highlights the program's commitment to providing rigorous education in STEM disciplines, emphasizing the development of critical thinking and analytical skills necessary for success in engineering fields.
Curriculum: The curriculum is structured to cover fundamental concepts and advanced topics in electrical engineering. Core courses include mathematics, physics, and engineering fundamentals, with a focus on electrical circuits, signals and systems, electronics, and electromagnetics. Students may also have opportunities to choose electives based on their interests, allowing for specialization in areas such as power systems, communications, or control systems.
Research Focus: Washington State University - Vancouver places a strong emphasis on research within the B.S. in Electrical Engineering program. Faculty members are actively involved in research projects spanning various areas, including renewable energy, wireless communication, embedded systems, and semiconductor devices. Students have the opportunity to engage in research initiatives, contributing to advancements in electrical engineering and gaining practical experience in cutting-edge technologies.
Industry Engagement: The program actively encourages industry engagement to bridge the gap between academic learning and real-world applications. Through internships, cooperative education programs, and industry-sponsored projects, students can gain valuable practical experience, network with professionals, and apply their skills to solve engineering challenges in the workforce. Industry engagement opportunities may also include guest lectures, site visits, and participation in engineering conferences.
Global Perspective: Washington State University - Vancouver's B.S. in Electrical Engineering program incorporates a global perspective, recognizing the international nature of engineering and technology. Students may explore global engineering challenges, study international standards, and have opportunities for collaborative projects with students from different parts of the world. The program may also offer study abroad options or research collaborations with international institutions, fostering a broader understanding of the global impact of electrical engineering.
Location
Vancouver, Washington, USA
Score
IELTS 6.5
Tuition Fee
USD 28385
Undergraduate Entry Requirements
Application Fee: $70
Academic Requirements: Prospective undergraduate students are required to have a minimum academic achievement of 82% or above in their previous educational qualifications.
English language proficiency:
- IELTS Requirement: An overall IELTS score of 6.5 is required.
- TOEFL Requirement: A minimum overall score of 79 is often required.
- PTE Requirement: A minimum overall score of 56 is often required.
- DET Requirement: A DET score of 105 is required.
Students must provide:
- academic marksheets & transcripts
- letters of recommendation
- a personal statement - SOP
- passport
- other supporting documents as required by the university.
It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.
Washington State University's Vancouver campus, located in the picturesque Pacific Northwest, offers a range of scholarship opportunities for international students pursuing their academic endeavors. With a fostering diversity and global engagement, WSU Vancouver strives to support talented individuals from around the world in achieving their educational goals.
International Academic Excellence Scholarship: This merit-based scholarship is designed to recognize and reward outstanding academic achievements. Eligible international students with a strong academic record are encouraged to apply. The scholarship amount varies based on academic performance.
Global Leadership Scholarship: Aimed at students who have demonstrated leadership skills in their communities or academic environments, the Global Leadership Scholarship is intended to support those who aspire to make a positive impact on the world. Applicants are evaluated based on their leadership experiences and accomplishments.
Cultural Diversity Scholarship: WSU Vancouver values diversity and aims to create an inclusive learning environment. The Cultural Diversity Scholarship is dedicated to supporting students from underrepresented backgrounds, fostering cross-cultural understanding, and enriching the campus community.
Graduates of Washington State University - Vancouver's B.S. in Electrical Engineering program possess a strong foundation in electrical engineering principles, opening doors to a wide array of challenging and rewarding career opportunities. The program's comprehensive curriculum and hands-on experiences prepare students for roles in various industries that rely on electrical engineering expertise.
Electrical Engineer: Graduates can pursue careers as electrical engineers, designing, developing, and testing electrical systems, components, and devices.
Power Systems Engineer: For those interested in power distribution and generation, graduates can become power systems engineers, working on the design and optimization of electrical grids.
Telecommunications Engineer: Graduates can specialize in telecommunications engineering, designing and maintaining communication systems, including networks and satellite systems.
Control Systems Engineer: For those fascinated by automation, graduates can become control systems engineers, designing and implementing control systems for various applications.
Electronics Design Engineer: Graduates can work as electronics design engineers, developing and testing electronic components and systems for consumer or industrial applications.
Embedded Systems Engineer: In the field of embedded systems, graduates can design and implement systems that integrate hardware and software for specific applications.
RF (Radio Frequency) Engineer: For those interested in wireless communication, graduates can become RF engineers, designing and optimizing radio frequency systems.
Hardware Design Engineer: Graduates can specialize in hardware design, working on the development of computer hardware components and systems.
Automation Engineer: For those interested in industrial processes, graduates can become automation engineers, designing and implementing automated systems in manufacturing and other industries.
Renewable Energy Engineer: In the growing field of renewable energy, graduates can work as engineers, contributing to the design and implementation of sustainable energy systems.
Semiconductor Engineer: Graduates can work in the semiconductor industry, designing and manufacturing electronic components and integrated circuits.
Instrumentation Engineer: For those interested in measurement and control, graduates can become instrumentation engineers, designing systems to monitor and control processes.
Field Application Engineer: Graduates can work as field application engineers, providing technical support and solutions for customers using electronic and electrical products.
Project Engineer: In project management roles, graduates can become project engineers, overseeing the planning and execution of engineering projects.
Aerospace Engineer: For those interested in aerospace, graduates can work as aerospace engineers, designing and testing electrical systems for aircraft and spacecraft.
Biomedical Engineer: In healthcare, graduates can specialize as biomedical engineers, working on the development and maintenance of medical devices.
System Integration Engineer: Graduates can work as system integration engineers, ensuring that different components and systems work seamlessly together in complex projects.
Digital Signal Processing Engineer: For those interested in signal processing, graduates can become DSP engineers, working on algorithms and systems for processing digital signals.
Data Center Engineer: In the realm of data centers, graduates can work as engineers, designing and maintaining electrical systems for efficient data storage and processing.
Research and Development Engineer: Graduates can pursue careers in research and development, contributing to innovations in electrical engineering through experimentation and analysis.
Engineering Manager: With experience, graduates can transition into management roles, becoming engineering managers overseeing teams and projects.
Teaching/Research Faculty: For those passionate about education, graduates can enter academia as teaching or research faculty, contributing to the field's knowledge and shaping future engineers.
Robotics Engineer: Graduates can specialize in robotics, working on the design and implementation of robotic systems for various applications.
Automotive Engineer: In the automotive industry, graduates can work as electrical engineers, contributing to the design and improvement of electrical systems in vehicles.
Energy Storage Engineer: For those interested in energy storage solutions, graduates can work on designing systems for efficient energy storage and utilization.
