Strength of Material (Mechanical Engineering)
Course Outcomes- The Learner will be capable to: Apply knowledge of mathematics, science for engineering applications Design and carry out experiments, and to analyze…
Fluid Mechanics (Mechanical Engineering)
Course Outcomes- The Learner will be capable to Use of various properties in solving the problems in fluids. Use of Bernoulli’s equation for solutions…
Engineering Mathematics-3 (Mechanical Engineering)
Course Outcomes- The Course outcome is as follows: The Learner will be capable to Solve higher order linear differential equations and applications to modeling…
Turbo Machines (Mechanical Engineering)
Course Outcomes- The Course outcome is as follows: Implement thermodynamics and kinematics principles to turbomachines. Examine the performance of turbomachines. Capability to decide turbomachine…
Heat Transfer (Mechanical Engineering)
Course Outcomes- The Learner will be capable to: Interpret the several modes of heat transfer and perform the basic heat conduction equations for a…
Engineering Mathematics-3 (Electrical Engineering)
Course Outcomes- The Course outcome is as follows: Linear differential equations of higher order applicable to Control systems. Transforms such as Laplace transform, Fourier…
Structural Design and Drawing III (Civil Engineering)
Course Outcomes- The Course outcome is as follows: The Learner will be capable to Understand Basic concepts, materials, various Pre-tensioning, and Post-tensioning systems, the…
Strength Of Material (Civil Engineering)
Course Outcomes- The Course outcome is as follows: The Learner will be capable to Compute different type of stresses in determinate, indeterminate, homogeneous and…
Fluid Mechanics-2 (Civil Engineering)
Course Outcomes- The Course outcome is as follows: The Learner will be capable to Understand Definitions and expressions for drag, Practical problems involving fluid…