College Description of MRI Physics II
This course continues MRI physics with expanded emphasis on gradients, k-space, and advanced signal behavior. Students deepen their understanding of MRI system operations and learn how physical principles influence image quality. Additionally, the course strengthens analytical reasoning and prepares students for specialized MRI applications by reinforcing advanced physics concepts.
Course Objectives of MRI Physics II
Students will learn to analyze gradient functions, interpret k-space behavior, evaluate advanced relaxation processes, and apply physics principles to image optimization. They will also strengthen analytical reasoning, scientific interpretation, and advanced MRI physics skills.
Key Topics Covered During MRI Physics II
Gradients, k-space, advanced relaxation, signal behavior, and image optimization. These topics provide the foundation for understanding advanced MRI physics and support specialized imaging applications.
Student Assessment During MRI Physics II
Assessment includes exams, quizzes, problem-solving tasks, and advanced physics analysis assignments. Students will also complete activities that reinforce MRI physics concepts and strengthen scientific reasoning.
Average College Credits for MRI Physics II
3
Prerequisites For MRI Physics II
MRI Physics I
What Department Teaches MRI Physics II
Magnetic Resonance Imaging
Who Teaches MRI Physics II
MRI faculty.