CO 1 Draw the projection of points and lines located in different quadrants
CO 2 Prepare multiview orthographic projections of objects by visualizing them in different positions
CO 3 Draw sectional views and develop surfaces of a given object
CO 4 Prepare pictorial drawings using the principles of isometric and perspective projections to visualize objects in three dimensions.
CO 5 Convert 3D views to orthographic views
CO 6 Obtain multiview projections and solid models of objects using CAD tools
BASICS OF ELECTRICAL AND ELECTRONICS ENGINEERING
CO 1 Apply fundamental concepts and circuit laws to solve simple DC electric circuits
CO 2 Develop and solve models of magnetic circuits
CO 3 Apply the fundamental laws of electrical engineering to solve simple ac circuits in steady-state
CO 4 Describe the working of a voltage amplifier
CO 5 Outline the principle of an electronic instrumentation system
CO 6 Explain the principle of radio and cellular communication
PROGRAMMING IN C
CO 1 Analyze a computational problem and develop an algorithm/flowchart to find its solution
CO 2 Develop readable* C programs with branching and looping statements, which use Arithmetic, Logical, Relational or Bitwise operators.
CO 3 Write readable C programs with arrays, structures or unions for storing the data to be processed
CO 4 Divide a given computational problem into several modules and develop a readable multi-function C program by using recursion if required, to find the solution to the computational problem
CO 5 Write readable C programs which use pointers for array processing and parameter passing
CO 6 Develop readable C programs with files for reading input and storing the output
ENGINEERING PHYSICS A
CO 1 Compute the quantitative aspects of waves and oscillations in engineering systems.
CO 2 Apply the interaction of light with matter through interference, and diffraction and identify these phenomena in different natural optical processes and optical instruments.
CO 3 Analyze the behaviour of matter at the atomic and subatomic levels through the principles of quantum mechanics to perceive the microscopic processes in electronic devices.
CO 4 Classify the properties of magnetic materials and apply vector calculus to static magnetic fields and use Maxwell’s equations for diverse engineering problems
CO 5 Analyze the principles behind various superconducting applications, explain the working of solid-state lighting devices and fibre optic communication system
VECTOR CALCULUS, DIFFERENTIAL EQUATIONS AND TRANSFORMS
CO 1 Compute the derivatives and line integrals of vector functions and learn their applications
CO 2 Evaluate surface and volume integrals and learn their inter-relations and applications.
CO 3 Solve homogeneous and non-homogeneous linear differential equations with constant coefficients
CO 4 Compute Laplace transform and apply them to solve ODEs arising in engineering
CO 5 Determine the Fourier transforms of functions and apply them to solve problems arising in engineering
ENGINEERING PHYSICS LAB
CO 2 Understand the need for precise measurement practices for data recording
CO 3 Understand the principle, concept, working and applications of relevant technologies and comparison of results with theoretical calculations
CO 4 Analyze the techniques and skills associated with modern scientific tools such as lasers and fibre optics
CO 5 Develop basic communication skills through working in groups in performing the laboratory experiments and by interpreting the results