Course Outcomes (CO’s) for B. Tech 1st Year (All Branches)

BTPH101-18 Mechanics of Solids (BTPH101-18)
Students will be able to

• BTPH101-18.1 Understand the vector mechanics for a classical system
• BTPH101-18.2 Identify various types of forces in nature, frames of references, and conservation laws
• BTPH101-18.3 Know the simple harmonic, damped, and forced simple harmonic oscillator for a mechanical system
• BTPH101-18.4 Analyse the planar rigid body dynamics for a mechanical system
• BTPH101-18.5 Apply the knowledge obtained in this course to the related problems

BTPH111-18 Mechanics of Solids Lab (BTPH111-18) Students will be able to

• BTPH111-18.1 Able to understand the concepts learned in the mechanics of solids.
• BTPH111-18.2 Learning the skills needed to verify some of the concepts of theory courses.
• BTPH111-18.3 Trained in carrying out precise measurements and handling sensitive equipment.
• BTPH111-18.4 Able to understand the principles of error analysis and develop skills in experimental design.
• BTPH111-18.5 Able to document a technical report which communicates scientific information in a clear and concise manner.

BTPH102-18 Optics & Modern Physics (BTPH102-18) Students will be able to

• BTPH102-18.1 Identify and illustrate physical concepts and terminology used in optics and other wave Phenomenon
• BTPH102-18.2 Understand optical phenomenon, such as, interference, diffraction etc. in terms of wave model.
• BTPH102-18.3 Understand the importance of wave equation in nature and appreciate the mathematical formulation of the same.
• BTPH102-18.4 Appreciate the need for quantum mechanics, wave particle duality, uncertainty principle etc. and their applications.
• BTPH102-18.5 Understand some of the basic concepts in the physics of solids and semiconductors.

BTPH112-18 Optics & Modern Physics Lab (BTPH112-18) Students will be able to

• BTPH112-18.1 Verify some of the theoretical concepts learnt in the theory courses.
• BTPH112-18.2 Trained in carrying out precise measurements and handling sensitive equipment.
• BTPH112-18.3 Introduced to the methods used for estimating and dealing with experimental uncertainties and systematic errors.
• BTPH112-18.4 Learn to draw conclusions from data and develop skills in experimental design.
• BTPH112-18.5 Write a technical report which communicates scientific information in a clear and concise manner.

BTPH103-18 Electromagnetism (BTPH103-18) Students will be able to

• BTPH103-18.1 Specify the constitutive relationships for fields and understand their importance.
• BTPH103-18.2 Describe the static and dynamic electric and magnetic fields for technologically important structures.
• BTPH103-18.3 Measure the voltage induced by time varying magnetic flux.
• BTPH103-18.4 Acquire the knowledge of Maxwell equation and electromagnetic field theory and propagation and reception of electro-magnetic wave systems.
• BTPH103-18.5 Have a solid foundation in engineering fundamentals required to solve problems and also to pursue higher studies.

BTPH113-18 Electromagnetism Lab (BTPH113-18) Students will be able to

• BTPH113-18.1 Able to verify some of the theoretical concepts learnt in the theory courses.
• BTPH113-18.2 Trained in carrying out precise measurements and handling sensitive equipment.
• BTPH113-18.3 Introduced to the methods used for estimating and dealing with experimental uncertainties and systematic "errors."
• BTPH113-18.4 Learn to draw conclusions from data and develop skills in experimental design.
• BTPH113-18.5 Write a technical report which communicates scientific information in a clear and concise manner.

BTPH104-18 Semiconductor Physics (BTPH104-18) Students will be able to

• BTPH104-18.1 Understand and explain the fundamental principles and properties of electronic materials and semiconductors
• BTPH104-18.2 Understand and describe the interaction of light with semiconductors in terms of Fermi golden rule
• BTPH104-18.3 Understand and describe the impact of solid-state device capabilities and limitations on electronic circuit performance
• BTPH104-18.4 Understand the design, fabrication and characterization techniques of engineered semiconductor materials
• BTPH104-18.5 Students will be able to develop the basic tools with which they can study and test the newly developed devices and other semiconductor applications

BTPH114-18 Semiconductor Physics Lab (BTPH104-18) Students will be able to

• BTPH114-18.1 Verify some of the theoretical concepts learnt in the theory courses BTPH114-18.2 Trained in carrying out precise measurements and handling sensitive equipment.
• BTPH114-18.3 Introduced to the methods used for estimating and dealing with experimental uncertainties and systematic "errors."
• BTPH114-18.4 Learn to draw conclusions from data and develop skills in experimental design.
• BTPH114-18.5 Write a technical report which communicates scientific information in a clear and concise manner.

BTPH105-18 Semiconductor & Optoelectronics (BTPH105-18) Students will be able to

• BTPH105-18.1 Understand and explain the fundamental principles and properties of electronic materials and semiconductors
• BTPH105-18.2 Understand and describe the interaction of light with semiconductors in terms of Fermi golden rule
• BTPH105-18.3 Understand and describe the impact of solid-state device capabilities and limitations on electronic circuit performance
• BTPH105-18.4 Understand the design, fabrication, characterization techniques, and measurements of Engineered semiconductor materials.
• BTPH105-18.5 Learn the basics of the optoelectronic devices, LEDs, semiconductor lasers, and photo detectors.

BTPH115-18 Semiconductor & Optoelectronics Lab (BTPH115-18) Students will be able to

• BTPH115-18.1 Verify some of the theoretical concepts learnt in the theory courses.
• BTPH115-18.2 Trained in carrying out precise measurements and handling sensitive equipment.
• BTPH115-18.3 Introduced to the methods used for estimating and dealing with experimental uncertainties and systematic "errors."
• BTPH115-18.4 Learn to draw conclusions from data and develop skills in experimental design.
• BTPH115-18.5 Write a technical report which communicates scientific information in a clear and concise manner.

BTHU101/102-18 Communication Skills (BTPH101/102-18) Students will be able to

• BTHU101/102-18.1 Help the students become independent users of English language. BTHU101/102-18.2 Acquire basic proficiency in reading & listening, comprehension, writing and speaking skills.
• BTHU101/102-18.3 Understand spoken and written English language, particularly the language of their chosen technical field.
• BTHU101/102-18.4 Able to converse fluently
• BTHU101/102-18.5 Able to produce on their own clear and coherent texts.

BTCH101-18 Chemistry (BTCH101-18) Students will be able to

• BTPH101-18.1 Analyse microscopic chemistry in terms of atomic and molecular orbitals and intermolecular forces.
• BTPH101-18.2 Rationalise bulk properties and processes using thermodynamic considerations.
• BTPH101-18.3 Distinguish the ranges of the electromagnetic spectrum used for exciting different molecular energy levels in various spectroscopic techniques.
• BTPH101-18.4 Understand periodic properties such as ionization potential, electronegativity, oxidation states and electronegativity.
• BTPH101-18.5 Understand different major chemical reactions that are used in the synthesis of molecules.

BTCH102-18 Chemistry Lab (BTCH102-18)Students will be able to

• BTCH102-18.1 Estimate rate constants of reactions from concentration of reactants/products as a function of time.
• BTCH102-18.2 Measure molecular/system properties such as surface tension, viscosity, conductance of solutions, redox potentials, chloride content of water, etc.
• BTCH102-18.3 Synthesize a small drug molecule and analyse a salt sample.

BTAM101-18 Mathematics I (BTAM101-18)Students will be able to

• BTAM101-18.1 Learn the fallouts of Rolle’s Theorem that is fundamental to application of analysis to Engineering problems.
• BTAM101-18.2 Understand how to apply differential and integral calculus to evaluate definite, improper integrals and its applications.
• BTAM101-18.3 Learn the convergence of sequence and series and to apply different tests of convergence
• BTAM101-18.4 Understand how to deal with functions of several variables that are essential in most branches of engineering.
• BTAM101-18.5 Learn the essential tool of matrices and linear algebra in a comprehensive manner.

BTAM104-18 Mathematics I (BTAM104-18)Students will be able to

• BTAM104-18.1 Apply differential and integral calculus to notions of curvature and to improper integrals.
• BTAM104-18.2 Basic understanding of Beta and Gamma functions.
• BTAM104-18.3 Understand the essential tool of matrices and linear algebra including linear transformations.
• BTAM104-18.4 Understand the concept of Vector Spaces and their association with Matrices
• BTAM104-18.5 Understand eigenvalues, eigenvectors, diagonalization and orthogonalization process.

BTAM201-18 Mathematics II (BTAM201-18)Students will be able to

• BTAM201-18.1 The mathematical tools needed in evaluating multiple integrals and their usage.
• BTAM201-18.2 The effective mathematical tools for the solutions of differential equations that model physical processes.
• BTAM201-18.3 The tools of differentiation and integration of functions that are used in various techniques dealing engineering problems

BTAM202-18 Mathematics II (BTAM202-18)Students will be able to

• BTAM202-18.1 Understand the methods which can be used to solve a variety of ordinary and partial differential equations.
• BTAM202-18.2 Demonstrate knowledge of a range of applications of analytical and numerical methods.
• BTAM202-18.3 Develop their attitude towards problem solving.
• BTAM202-18.4 Understand how to apply numerical methods to solve the mathematical models.

BTAM203-18 Mathematics II (BTAM203-18)Students will be able to

• BTAM203-18.1 The effective mathematical tools for the solutions of differential equations that model physical processes.
• BTAM203-18.2 The tools of differentiation and integration of functions of a complex variable that are used in various techniques dealing with engineering problems.

BTAM204-18 Mathematics II (BTAM204-18)Students will be able to

• BTAM204-18.1 Apply basic ideas of statistics including measures of central tendency, correlation, regression and curve fitting
• BTAM204-18.2 Recall the basic principles of Probability and its applications.
• BTAM204-18.3 Visualize and use the concept of random variables to find the probability of an event
• BTAM204-18.4 Understand various probability distributions and apply to engineering problems.

BTEE101-18 Basic Electrical Engineering (BTEE101-18) Students will be able to

• BTEE101-18.1 Understand the concept of DC circuits, AC circuits, basic magnetic circuits, working principles of electrical machines, and components of low voltage electrical installations.
• BTEE101-18.2 Know about DC circuits and AC circuits.
• BTEE101-18.3 Basic magnetic circuits and apply it to the working of electrical machines.
• BTEE101-18.4 Understand the concept of wiring, batteries, and LT switchgear.

BTEE102-18 Basic Electrical Engineering Lab (BTEE102-18) Students will be able to

• BTEE102-18.1 The ability to use common electrical measuring instruments and understand the fundamentals of electrical engineering.
• BTEE102-18.2 The ability to make electrical connections, and measure power, power factor using appropriate equipment.
• BTEE102-18.3 Have the knowledge of electrical machines, components and their ratings
• BTEE102-18.4 Understand the operation of transformers and electrical machines.

BTPS101-18 Programming for Problem solving (BTPS101-18) Students will be able to

• BTPS101-18.1 To formulate simple algorithms for arithmetic and logical problems. BTPS101-18.2 To translate the algorithms to programs (in C language).
• BTPS101-18.3 To test and execute the programs and correct syntax and logical errors.
• BTPS101-18.4 To implement conditional branching, iteration and recursion BTPS101-18.5 To decompose a problem into functions and synthesize a complete program using a divide and conquer approach.
• BTPS101-18.6 To use arrays, pointers and structures to formulate algorithms and programs.
• BTPS101-18.7. To apply programming to solve matrix addition and multiplication problems and searching and sorting problems.
• BTPS101-18.8 To apply programming to solve simple numerical method problems, namely rot finding of function, differentiation of function and simple integration.

BTPS102-18 Programming for Problem Solving Lab (BTPS102-18) Students will be able to

• BTPS102-18.1 To formulate the algorithms for simple problems
• BTPS102-18.2 To translate given algorithms to a working and correct program BTPS102-18.3 To be able to correct syntax errors as reported by the compilers BTPS102-18.4 To be able to identify and correct logical errors encountered at run time
• BTPS102-18.5 To be able to write iterative as well as recursive programs
• BTPS102-18.6 To be able to represent data in arrays, strings and structures and manipulate them through a program
• BTPS102-18.7 To be able to declare pointers of different types and use them in defining self-referential structures.
• BTPS102-18.8 To be able to create, read and write to and from simple text files.