Can be done in 6 months
The Biomedical Engineering program focuses on applying engineering techniques to medical and biological problems. Students gain expertise in designing medical equipment, prosthetics, and diagnostic systems, advancing healthcare through technological innovation.
The College of Engineering is designed to establish a strong foundation in engineering fundamentals and technical proficiency. Students start by building a deep understanding of core engineering disciplines and gain hands-on experience in problem-solving and innovation. This technical base prepares students for a successful career in the dynamic field of engineering.
Beyond the classroom, our College of Engineering places a significant emphasis on real-world applications and industry partnerships. Students have opportunities to work on engineering projects, collaborate with engineering firms, and engage in research with cutting-edge technology. These experiences not only enhance their practical engineering skills but also provide valuable insights into the industry.
The College of Engineering at Mid Island University is committed to addressing global engineering challenges and fostering international collaborations. Our curriculum explores international engineering practices and encourages students to engage in projects with global impact. Additionally, we offer study abroad programs and collaborate with engineers from around the world, enabling students to gain a global perspective on engineering.
This course defines industrial and systems engineering; describing its place in the business world and offering a wide picture of the functional areas with some solution techniques.
This course helps you in acquiring an engineering mindset; providing you with the core knowledge and skills all engineers need to succeed. It helps you in seeing the world through the eyes of an engineer; looking at how engineers apply science and technology to solve problems facing society today.
Latest developments in engineering discusses about the latest trends in engineering which keep on adding new subjects and new versions of old subjects and techniques.
In this course, you will find a lot of the e-engineering basics presented in an easy-to-follow and friendly style, you will also get the latest on internet, web page design, and much more-stuff barely on the horizon a couple of years ago that now dominates the online landscape.
Advanced fields in engineering is the analysis and design of continuous-time and discrete-time systems using time domain and frequency domain techniques. The course includes important Structural Dynamics, Free Vibration, Dynamic Analysis And Response To Linear Systems and Reduction Of Degree Of Freedom
This course provides an integrated introduction to electrical engineering and computer science, taught using substantial laboratory experiments with mobile robots. Our primary goal is for you to learn to appreciate and use the fundamental design principles of modularity and abstraction in a variety of contexts from electrical engineering and computer science.
The course is based on introduction to the civil engineering profession and its role in the society; creative thinking and critical thinking as integral parts of the engineering decision process. The course discusses about important materials such as concrete materials, wood, iron and steel.
The traditional approach to teaching mechanical engineering has been to cover either mechanics or thermofluid mechanics. In response to the growing trend toward more general modules, Foundations of Mechanical Engineering provides a unified approach to teaching the basic mechanical engineering topics of mechanics, the mechanics of solids, and thermofluid mechanics.
This course explores the materials and processes used in biomedical engineering, including the design, development, and application of biomaterials and biomedical devices.
This course delves into the essential principles and techniques of biomedical engineering, focusing on the development and application of technologies to solve medical problems and improve healthcare.
This course provides a comprehensive introduction to biomedical engineering, covering the integration of engineering principles with medical and biological sciences. It is designed to give students a foundational understanding of the field.
This course covers the dynamics and control systems of biomedical engineering, focusing on the modelling and control of physiological systems and biomedical devices.
This course focuses on the structural aspects of biomedical engineering, including the design and analysis of biomedical devices and biological structures. Students will learn about the principles of structural engineering and their applications in biomedical engineering.
This course introduces students to the principles of systems engineering as applied to biomedical engineering projects. It covers the entire lifecycle of biomedical systems, from requirements definition to system validation.
| Tuition Fee Breakdown | Cost |
|---|---|
| ASSOCIATE TO BACHELORS DEGREE | $18,480 |
| Medical Insurance | $0.00 |
| Personal Expenses | $0.00 |
| Study Materials | $0.00 |
| Food Cost | $0.00 |
| Total Tuition Fee | $18,480 |
At Mid Island University, we believe in where affordability meets opportunity. Our commitment to accessible education ensures that quality learning doesn't come with a hefty price tag. We open the doors to knowledge, offering students the chance to thrive without the burden of overwhelming tuition fees, empowering them for a brighter future.
Explore MIU’s Eligibility Criteria for Students Worldwide
High School Diploma, GED or equiv. International Education
84 Hours
1 Year (Self-Paced) Program
14
| Topics Covered in This Course: | |||||||||||||||||||||||||||||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||||||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||||||||||||||||||||||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||||||||||||||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||||||||||||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||
|
| Topics Covered in This Course: | |||||||||||||||
|
