My PlannerExplore and compare past grades, professor ratings, and reviews to find the perfect class.
Grades:
Median GPA:
Mean GPA:
Search Results
| Name | Grades | Rating |
|---|---|---|
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
Grades:
Median GPA:
Mean GPA:
Search Results
| Name | Grades | Rating |
|---|---|---|
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
Search Results
| Name | Grades | Rating |
|---|---|---|
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
Search Results
| Name | Grades | Rating |
|---|---|---|
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
A+ | ||
Search Results
| Name | Grades | Rating | |||
|---|---|---|---|---|---|
Not teaching in Spring 2026 | |||||
GEOS 4395 (Overall) | |||||
GEOS 4395 Yujie Zheng | |||||
Search Results
| Name | Grades | Rating | |||
|---|---|---|---|---|---|
Not teaching in Spring 2026 | |||||
GEOS 4395 (Overall) | |||||
GEOS 4395 Yujie Zheng | |||||
Remote Sensing Geophysics
GEOS 4395
School of Natural Sciences and Mathematics
This course covers both the theory and application of remote sensing in the field of geophysics from space-borne or air-borne platforms. The course places a strong focus on the latest and ongoing NASA/ESA Earth observation missions, such as GNSS, Grace (gravity), Sentinel-1(synthetic aperture radar), SWOT (altimetry), among others. Students will gain a thorough understanding of the observation process, including orbital mechanics, signal propagation, and uncertainty analysis. Applications of satellite geophysical observations in tectonics, geodynamics, ocean and ice surface monitoring, hydrology, and terrain modeling will be introduced through student projects and presentations. Recommended prerequisite: PHYS 2326. 3 credit hours.
Prerequisite: PHYS 2325 or instructor consent.
Offering Frequency: Each year
This professor/course combination hasn't been taught in the semesters you selected. To see more grade data, try changing your filters.
Grades: 0
Median GPA: None
Mean GPA: None
Click a checkbox to add something to compare.
Remote Sensing Geophysics
GEOS 4395
School of Natural Sciences and Mathematics
This course covers both the theory and application of remote sensing in the field of geophysics from space-borne or air-borne platforms. The course places a strong focus on the latest and ongoing NASA/ESA Earth observation missions, such as GNSS, Grace (gravity), Sentinel-1(synthetic aperture radar), SWOT (altimetry), among others. Students will gain a thorough understanding of the observation process, including orbital mechanics, signal propagation, and uncertainty analysis. Applications of satellite geophysical observations in tectonics, geodynamics, ocean and ice surface monitoring, hydrology, and terrain modeling will be introduced through student projects and presentations. Recommended prerequisite: PHYS 2326. 3 credit hours.
Prerequisite: PHYS 2325 or instructor consent.
Offering Frequency: Each year
This professor/course combination hasn't been taught in the semesters you selected. To see more grade data, try changing your filters.
Grades: 0
Median GPA: None
Mean GPA: None
Click a checkbox to add something to compare.