Course Outcome
F.Y.B.Sc.(Computer Science)
CS-111: Problem Solving using Computer and ‘C’ Programming
CO 1: List the computer languages.
CO 2: Learn the algorithm, flowchart and pseudo code.
CO 3: Write programs using control structures and arrays in ‘C’.
CO 4: Learn & apply the concepts of data type, loop, function, array
CO 5: Execute a program.
CS-112: Database Management Systems
CO 1: Define databases.
CO 2: Learn the types of databases.
CO 3: Design E-R Model
CO 4: Learn relational models.
CO 5: Learn data model.
CO 6: Implement relational model using psql
CS-113: Practical course on CS 231 and CS 232
CO 1: Implement the program using C language
CO 2: Learn the psql query
CO 3: Design program using C program
MTC-111: Matrix Algebra
CO 1: Define the term’s
CO 2: Explain the term’s
CO 3: Discuss the linear transformation, null space, column space, rank
CO 4: Solve the systems of linear equations
CO 5: Solve the problems
MTC-112:Discrete Mathematics
CO 1: Learn propositional logic
CO 2: Construct truth table Course Outcomes
CO 3: Show that logical equivalence
CO 4: Define types of relations
CO 5: Draw the diagrams
CO 6: State algorithms
CO 7: Solving recurrence relations
MTC-113: Mathematics Practical
CO 1: Learn all definition and basic concepts.
CO 2: Solve examples on transformations.
CO 3: Solve examples by using algorithms.
ELC-111: Semiconductor Devices and Basic Electronic Systems
CO 1: Learn the basic semiconductor devices
CO 2: Learn to draw the symbol and circuit
CO 3: Explain the concept of analog electronics
CO 4: Solve the example
CO 5: Describe the types of BJT,MOSFET
CO 6: Learn the concept of analog to digital Converters and vice versa
ELC-112: Principles of Digital Electronics
CO 1: Learn the different number system
CO 2: Inter conversion from one number into another number system
CO 3: Define different laws of Boolean algebra
CO 4: Simplify the Boolean expression
CO 5: Explain the concept
CO 6: Describe the concept
CO 7: Design the basic circuit
ELC-113: Electronics Practical
CO 1: Build and Test the circuit
CO 2: Calculate the result and analyze the result
CO 3: Plot the graphs
CO 4: Learn the working using digital components
CSST 111: Descriptive Statistics I
CO 1: Learn the importance, Scope and limitation of statistics.Course Outcomes
CO 2: Define different type of Data, median and mode.
CO 1: Explain the concept
CO 2: Solve the Examples
CO 3: Analyse statistical data graphically
CO 4: Distinguish between row and central moment
CO 5: Write a note
CSST 112: Mathematical Statistics
CO 1: Define sample space and its types
CO 2: State and Prove the theorem
CO 3: Explain the concept
CO 4: Solve the problem
CO 5: Find the distribution function
CO 6: Learn the numerical problem related to real life problem using statistics
CSST 113: Statistics Practical I
CO 1: Compute various measures of central tendency, dispersion, skewness, etc.
CO 2: Explain the concept.
CO 3: Evaluate the binomial and Poisson distributions.
CO 4: Compute the measures of attribute.
CO 5: Learn the statistical softwares.
CS-121: Advanced ‘C’ Programming
CO 1: Define macros in ‘C’
CO 2: Write programs using Pointer, Structure and Union in ‘C’.
CO 3: Learn & apply the concepts of file handling using C programming
CO 4: Execute a program.
CS-122: Relational Database Management System
CO 1: Define terms
CO 2: Describe the fundamental elements of Model Entity-Relationship diagrams
CO 3: Formulate Queries using SQL and Relational Formal Query Languages
CO 4: Apply different normal forms to design the Database
CO 5: Summarize concurrency control protocols and recovery algorithms
CO 6:Identify suitable Indices and Hashing mechanisms for effective storage and retrieval of Data
CS-123: Practical course on CS 231 and CS 232
CO 1: Implement the program using C language
CO 2: Learn the psql query
CO 3: Design program using C program
MTC-121: Linear Algebra
CO 1: Define the term vector space and Subspace
CO 2: Explain the term eigenvalue and eigenvector, diagonalization
CO 3: State and Prove theorem
CO 4: Solve the Problems
MTC-122: Graph Theory
CO 1: Define the terms
CO 2: Learn types of Graphs
CO 3: Basic terminologies and properties of graphs
CO 4: Matrix representation
CO 5: Solving problems
MTC-123: Mathematics Practical
CO 1: Learn all definition and basic concepts.
CO 2: Solve examples on vector space.
CO 3: Solve examples by Matrix representation
CO 4: Draw the Graph.
ELC-121: Instrumentation System
CO 1: Learn the basic of sensor and transducer and its types
CO 2: Learn different specification of sensor
CO 3:Learn the different types of smart sensors
CO 4: Explain the opamp as signal conditioning
CO 5: Solve the problem
CO 6: Learn the application of OP-amp
ELC-122: Basics of Computer Organization
CO 1: Learn the basic sequential circuit
CO 2: Explain the sequential circuit using truth table Course Outcomes
CO 3: Learn the basic computer organization concept
CO 4: Learn the basic of memory organization and its concept.
CO 5: Learn the types of memory and problems
ELC-123: Electronics Practical
CO 1: Build and Test the circuit
CO 2: Calculate the result and analyze the result
CO 3: Plot the graphs
CO 4: Learn the working using digital components
CSST 121: Method of applied Statistics
CO 1: Define the term’s
CO 2: Explain Some Concepts
CO 3: Distinguish Between
CO 4: Learn the various Concepts
CO 5: Solve the Problems
CO 6: Numerical Problems Related to real life Situation
CSST 122: Continuous Probability distribution and testing of Hypothesis
CO 1: Define the concept
CO 2: Give real life situation in continuous probability distribution
CO 3: State and prove distribution
CO 4: Discuss the properties
CO 5: Solve the problem
CO 6: Explain the use of computer in simulation
CO 7: Learn the numerical problem related to real life problem using statistics
CSST 123: Statistics Practical
CO 1: Learn the relationship between two variables using scatter plot.
CO 2: Compute.
CO 3: Evaluate the normal distributions.
CO 4: Apply inferential method
CO 5: Create model sample.