Teaching
Teaching
Pre-requisite: Basic knowledge of hydrology, open channel flow, and river engineering.
Objectives: The course aims to provide students with a comprehensive understanding of hydrological processes and equip them with the skills to apply this knowledge for analysis in practical scenarios.
Prerequisite: Basic knowledge of atmospheric systems, the physics behind it, and mathematics.
Objective: The objective of this course is to provide students with a comprehensive understanding of the principles, techniques, and applications of Remote Sensing (RS) and Geographic Information Systems (GIS) specifically tailored for water resources management.
Course Objective: To compare the result of analytical models introduced in the lecture to the actual behavior of real fluid flows. To discuss and practice standard measurement techniques of fluid mechanics and their applications.
Course Outcome: Compare the results of analytical models introduced in the lecture to the actual behavior of real fluid flows and draw correct and sustainable conclusions. Produce a working model through hands-on experience in fluid mechanics design and explain its operation in terms of what was learned in the course.
Prerequisite: Basic knowledge of atmospheric systems, the physics behind it, and mathematics.
Objective: The objective of this course is to provide students with a comprehensive understanding of the principles, techniques, and applications of Remote Sensing (RS) and Geographic Information Systems (GIS) specifically tailored for water resources management.
Pre-requisite: Basic knowledge of hydrology, soil mechanics, and fluid mechanics.
Objectives: The course aims to prepare students with the advanced knowledge, skills, and analytical tools necessary to address contemporary issues in groundwater hydrology and contribute to sustainable management of groundwater resources.
Prerequisite: Basic knowledge of atmospheric systems, the physics behind it, and mathematics.
Objective: The objective of this course is to provide students with a comprehensive understanding of the principles, techniques, and applications of extremen weather i.e. flood and droughts to solve filed problems.
Course Objective: To compare the result of analytical models introduced in the lecture to the actual behavior of real fluid flows. To discuss and practice standard measurement techniques of fluid mechanics and their applications.
Course Outcome: Compare the results of analytical models introduced in the lecture to the actual behavior of real fluid flows and draw correct and sustainable conclusions. Produce a working model through hands-on experience in fluid mechanics design and explain its operation in terms of what was learned in the course.
Course Objective: To provide keen knowledge to students about recent computer applications used in water resources engineering. To make the student strong enough to deal with all types of water resource problems.
Course Outcome: Student will be able to gain knowledge of various computer applications and their usage in water resources engineering. Students will be able to do research in various areas of water resource engineering through modeling techniques.