Academic Regulations Programme Structure Detailed Syllabus . - GRIET

13.Grade Points: A 10 - point grading system with corresponding letter grades andpercentage of marks, as given below, is followedLetter GradeO (Outstanding)A (Excellent)A (Very Good)B (Good)B (Average)C (Pass)F (Fail)Ab (Absent)Grade Point109876500Percentage of marksMarks 90Marks 80 and Marks 90Marks 70 and Marks 80Marks 60 and Marks 70Marks 50 and Marks 60Marks 40 and Marks 50Marks 40Earning of Credit:A student shall be considered to have completed a course successfully and earned the credits ifhe/she secures an acceptable letter grade in the range O-P. Letter grade ‘F’ in any Courseimplies failure of the student in that course and no credits earned.Computation of SGPA and CGPA:The UGC recommends the following procedure to compute the Semester Grade Point Average(SGPA) and Cumulative Grade Point Average (CGPA):i) Sk the SGPA of kth semester(1 to 8) is the ratio of sum of the product of the number ofcredits and grade points to the total credits of all courses registered by a student, i.e.,SGPA (Sk) 𝒏𝒊 𝟏 (𝐂𝐢 𝐆𝐢) / 𝐧𝐢 𝟏 𝐂𝐢WhereCi is the number of credits of the ith course and Gi is the grade point scored by thestudent in the ith course and n is the number of courses registered in that semester. ii) TheCGPA is calculated in the same manner taking into account all the courses m, registered bystudent over all the semesters of a programme, i.e., upto and inclusive of Sk, where k 2.CGPA 𝟏 𝐂𝐢iii) The SGPA and CGPA shall be rounded off to 2 decimal points.14. Award of Class: After a student satisfies all the requirements prescribed for the completion of theDegree and becomes eligible for the award of B. Tech Degree by JNTUH, he/she shall be placedin one of the following four classes based on CGPA secured from the 160 credits.Class AwardedCGPA Secured14.1First Class With DistinctionCGPA 8.00 with no F or below grade/detention anytime during the programme14.2First ClassCGPA 8.00 with rest of the clauses of14.1 not satisfied14.3First ClassCGPA 6.50 and CGPA 8.0014.4Second ClassCGPA 5.50 and CGPA 6.5014.5Pass ClassCGPA 5.00 and CGPA 5.5015. Withholding of Results: If the student has not paid dues to the Institute/ University, or if anycase of indiscipline is pending against the student, the result of the student (for that Semester) maybe withheld and the student will not be allowed to go into the next semester. The award or issue ofthe Degree may also be withheld in such cases.

16. Transferof students from the Constituent Colleges of JNTUH or from otherColleges/ Universities: Transfer of students from the Constituent Colleges of JNTUH orfrom other Colleges/ Universities shall be considered only on case-to-case basis by theAcademic Council of the Institute.17. TransitoryRegulations: Students who have discontinued or have been detained for wantof attendance, or who have failed after having undergone the Degree Programme, may beconsidered eligible for readmission/re-registration to the same or equivalent subjects asand when they are offered.18. General Rulesa) The academic regulations should be read as a whole for the purpose of anyinterpretation.b) In the case of any doubt or ambiguity in the interpretation of the above rules, thedecision of the Academic Council is final.c) In case of any error in the above rules and regulations, the decision of the AcademicCouncil is final.d) The college may change or amend the academic regulations or syllabi at any time andthe changes or amendments made shall be applicable to all the students with effect fromthe dates notified by the college.

Academic Regulations for B.Tech (Lateral Entry) under GR18(Applicable for Batches Admitted from 2019-2020)1. All regulations as applicable for B.Tech Four year degree programme (Regular) will hold goodfor B.Tech (Lateral Entry Scheme) except for the following rulesa)Pursued programme of study for not less than three academic years and not more than sixacademic years.b)A student should register for all 123 credits and secure all credits. The marks obtained in all 123credits shall be considered for the calculation of the final CGPA.c)Students who fail to fulfil all the academic requirements for the award of the degree within sixacademic years from the year of their admission, shall forfeit their seat in B.Tech programme.2. Academic Requirements and Promotion Rules:a) A student shall be deemed to have satisfied the minimum academic requirements and earnedthe credits allotted to each theory or laboratories if he/she secures not less than 35% of marks inthe Semester-end Examination and a minimum of 40% of the sum total of the InternalEvaluation and Semester-end Examination taken together.b) A student shall be promoted to the next year only when he/she satisfies the requirements of allthe previous semesters.S. No.12PromotionConditions to be fulfilledSecond year first semester to second Regular course of study of second year firstyear second semester.semester.Second year second semester tothird year first semester.(i)Regular course of study of second yearsecond semester.(ii)Must have secured at least 50% creditsup to second year second semester from allthe relevant regular and supplementaryexaminations, whether the student takesthose examinations or not.34Third year first semester to thirdyear second semester.Regular course of study of third year firstsemester.Third year second semester tofourth year first semester.(i)Regular course of study of third yearsecond semester.(ii)Must have secured at least 60% creditsup to third year second semester from allthe relevant regular and supplementaryexaminations, whether the student takesthose examinations or not.

5Fourth year first semester tofourth year second semester.Regular course of study of fourth year firstsemester.3. Award of Class: After a student satisfies all the requirements prescribed for the completion of theDegree and becomes eligible for the award of B. Tech Degree by JNTUH, he/she shall be placed inone of the following four classes based on CGPA secured from the 123 credits.3.1Class AwardedFirst Class With Distinction3.2First Class3.33.43.5First ClassSecond ClassPass ClassCGPA SecuredCGPA 8.00 with no F or belowgrade/ detention anytime during theprogrammeCGPA 8.00 with rest of the clausesof 3.1 not satisfiedCGPA 6.50 and CGPA 8.00CGPA 5.50 and CGPA 6.50CGPA 5.00 and CGPA 5.50

Gokaraju Rangaraju Institute of Engineering and Technology(Autonomous)Bachupally, Kukatpally, Hyderabad – 500 090, India. (040) 6586 4440CIVIL ENGINEERINGI YEAR I SEMESTERS.NO.Course s1GR18A1001Linear Algebra and 07Engineering PhysicsProgramming for GR18A1012GR18A1015Engineering GraphicsEngineering Physics LabProgramming for ProblemSolving 18180420600Induction ProgrammeTotalI YEAR II SEMESTERS.NO.Course lMarks1GR18A1002Differential Equations and VectorCalculus3104430701002GR18A1005Engineering ng Engineering Chemistry Lab00331.530701006GR18A1014English Language andCommunication Skills Lab0022130701007GR18A1017Engineering Workshop10342.5307010012382319210490700Total

II YEAR I SEMESTERS.NO.Course 23070100MarksGR18A2007Building Materials andConstruction PlanningEngineering Geology2002230701003GR18A2008GR18A2009Solid Mechanics – I3104430701004GR18A2006Computational Mathematics forEngineers3003330701005GR18A2010Introduction to Fluid Mechanics3003330701006GR18A2011Pavement Materials30030701007GR18A2012Engineering Geology lab0022130701008GR18A2013Solid Mechanics 2Value Ethics and Gender Culture20022307010010GR18A2001Environmental Science200223070100II YEAR II SEMESTERS.NO.1Course reditsIntExtMarksLTPSolid Mechanics – II310443070100Basic Electrical and ElectronicsEngineeringMechanical Engineering300333070100200223070100Surveying & GeomaticsHydraulic Engineering310443070100300333070100Structural Analysis –I300333070100Surveying Lab0044230701008GR18A2021Computer Aided Design Lab00221307010002213070100GR18A2022Fluid Mechanics & HydraulicMachinery Design Thinking

III YEAR I SEMESTERS.NO.COURSECourse ctural Analysis IIGeotechnical EngineeringDesign of Concrete Structures IEnvironmental EngineeringHydrology & Water ResourcesEngineeringProfessional Elective IGeotechnical Engineering LabEnvironmental Engineering LabConcrete Technology LabTotalConstitution of 063070100100100100900100Ext3ExtMarksPROFESSIONAL ELECTIVE - 1S. No.1.2.3.GR18A3006GR18A3007GR18A3008Course Code4.GR18A3009COURSEMasonry StructuresUrban Transportation PlanningEnvironmental Impact Assessment and LifeCycle AnalysesConstruction Equipment and AutomationIII YEAR II SEMESTERS.NO.Course URSEEconomics & Accounting forEngineersTransportation EngineeringFoundation EngineeringDesign of Steel StructuresProfessional Elective IIOpen Elective ITransportation Engineering LabMini Project with SeminarSummer 00100100100100100100240560800-PROFESSIONAL ELECTIVE - 2S. No.1234Course forced ConcreteRock MechanicsOpen Channel FlowConcrete TechnologyMarks

IV YEAR I SEMESTERS.NO.12Course EHoursLTP310300Estimation & CostingProject management &EntrepreneurshipProfessional Elective IIIProfessional Elective IVOpen Elective IIComputer Applications inStructural Engineering LabProject work (Phase 10001501121612326243021070490100700PROFESSIONAL ELECTIVE - 3S. No.1.2.3.4.Course strial StructuresGeometric Design of HighwaysSurface HydrologyEngineering Materials for SustainabilityPROFESSIONAL ELECTIVE - 4S. No.1.2.3.4.Course arthquake EngineeringTraffic Engineering and ManagementGroundwaterGeographic Information Systems and Science

IV YEAR II SEMESTERS.NO.Course s1Professional Elective V3003330701002Professional Elective VI3003330701003Open Elective III300333070100Project work (Phase ROFESSIONAL ELECTIVE - 5S. No.Course Prestressed ConcreteGround Improvement TechniquesDesign of Hydraulic Structures/IrrigationEngineeringConstruction Project Planning and SystemsPROFESSIONAL ELECTIVE – 6S. No.Course Bridge EngineeringPavement DesignPhysico-Chemical Processes for Water andWastewater TreatmentRepairs and Rehabilitation of Structures

PROFESSIONAL ELECTIVES - 4 THREADS1MasonryStructuresUrban TransportationPlanningEnvironmental ImpactAssessment and Life CycleAnalysesConstructionTechnology rcedConcreteRock MechanicsOpen Channel flowConcrete Technology3IndustrialStructuresGeometric Design ofHighwaysSurface Hydrology4EarthquakeEngineeringTraffic Engineering andManagementGroundwater5PrestressedConcreteGround ImprovementTechniquesDesign of hydraulicstructures/Irrigation EngineeringEngineering Materialsfor SustainabilityGeographicInformation Systemsand ScienceConstruction ProjectPlanning & Systems6BridgeEngineeringPavement DesignPhysico-Chemical Processes forWater and WastewaterTreatmentRepairs &Rehabilitation ofStructuresS.No.StructuralEngineeringGeotechnical andTransportation EngineeringEnvironmental and HydrologyEngineeringOPEN ELECTIVES – THREADSS. No.THREAD 1THREAD 22Soft Skills and Interpersonal Skills (GR18A3117) CSE: 1. Principles of E-Commerce (GR18A3129)2. Database Management Systems (GR18A2068)3. Java Programming (GR18A2075)Human Resource Development andIT: 1. Multimedia and Application DevelopmentOrganizational Behaviour (GR18A3118)(GR18A3123)2. Web Programming (GR18A3057)3. Operating Systems (GR18A2074)3Cyber Law and Ethics (GR18A3119)4History of Science (GR18A3120)5Introduction to Art and Aesthetics(GR18A3121)6Economic Policies in India(GR18A3122)1EEE: 1.Embedded Systems (GR18A4102)2. Control Systems (GR18A2032)3. Artificial Intelligence Techniques (GR18A3016)ECE:1.Artificial Neural Networks(GR18A3124)2. Software Defined Radio and CognitiveRadio (GR18A3125)3. Cloud Computing (GR18A3102)ME: 1.Operations Research (GR18A3126)2. Automobile Engineering (GR18A3127)3. Robotics (GR18A4079)CE: 1. Green Building Technology (GR18A3128)2.Building Materials and Construction Planning(GR18A2007)3. Introduction to Fluid Mechanics (GR18A2010)

SyllabusI-Year

GOKARAJU RANGARAJU INSTITUTE OF ENGINEERING AND TECHNOLOGYLINEAR ALGEBRA AND DIFFERENTIAL CALCULUSCourse code: GR18A1001L/T/P/C: 3/1/0/4Course Objectives: To provide the student with The ideas of linearity and linear systems, which lie at the core of many engineering conceptsThe concept of latent values of a matrix which is critical in many engineering applicationsThe ideas of function approximation using the tools of mean value theoremsThe skill of using a definite integral for various geometrical applicationsThe skill of finding the optimal values of multi-variable functionsCourse Outcomes: After learning the contents of this paper the student must be able to Compute the rank of a matrix to determine the existence of solutions of a linear algebraicsystem Determine the eigenvalues and eigenvectors of a square matrix which arise in severalengineering applications Determine approximate solution of over determined systems using the pseudo inverse Apply the definite integral for various computational problems in geometry and Evaluatesome improper integrals using special functions Develop the skill of determining optimal values of multivariable functions using classicalmethods Unit I: VECTOR AND MATRIX ALGEBRAVector space (definition and examples), linear independence of vectors, orthogonality of vectors,projection of vectors, Gram-Schmidt ortho normalization of vectors, Symmetric, Hermitian,skew- symmetric, skew-Hermitian, orthogonal and UNIT-ary matrices; Rank of a matrix byechelon reduction, Solution of a linear algebraic system of equations (homogeneous and nonhomogeneous).Unit II: MATRIX EIGENVALUE PROBLEM AND QUADRATIC FORMSDetermination of eigenvalues and eigenvectors of a matrix, properties of eigenvalues andeigenvectors (without proof), diagonalization of a matrix, orthogonal diagonalization ofsymmetric matrices, Similarity of matrices, Quadratic Forms: Definiteness and nature of aquadratic form, reduction of quadratic form to canonical forms by orthogonal transformation.Unit III: MATRIX DECOMPOSITION AND PSEUDO INVERSE OF A MATRIXSpectral decomposition of a symmetric matrix, L-U decomposition, Q-R factorization, Singularvalue decomposition ,Moore-Penrose pseudo inverse of a matrix, least squares solution of an overdetermined system of equations using pseudo inverse.

Unit IV: SINGLE VARIABLE CALCULUSMean value theorems: Rolle’s theorem, Lagrange’s Mean value theorem and Taylor’s theorem(without proof), their geometrical interpretation and applications, approximation of a function byTaylor’s series, Applications of definite integrals to evaluate surface areas and volumes ofrevolutions of curves (only in Cartesian coordinates), Evaluation of improper integral using Betaand Gamma functions.Unit V: MULTIVARIABLE DIFFERENTIAL CALCULUS AND FUNCTIONOPTIMIZATIONPartial Differentiation: Total derivative; Jacobian; Functional dependence, unconstrainedoptimization of functions using the Hessian matrix, constrained optimization using Lagrangemultiplier methodText/Reference Books:1. R.K.Jain and S.R.K.Iyengar, Advanced Engineering Mathematics, Narosa publishinghouse,2. Fourth edition 20143. B.S. Grewal, Higher Engineering Mathematics, Khanna Publishers, 36th Edition, 20104. G.B. Thomas and R.L. Finney, Calculus and Analytic geometry, 9th edition,Pearson,Reprint,5. 2002.6. Erwin kreyszig, Advanced Engineering Mathematics, 9th Edition, John Wiley & Sons,20067. GRIET reference manual.8. N.P. Bali and Manish Goyal, A text book of Engineering Mathematics, LaxmiPublications, Reprint, 2008.9. Ramana B.V., Higher Engineering Mathematics, Tata McGraw Hill New Delhi,11thReprint, 2010.

GOKARAJU RANGARAJU INSTITUTE OF ENGINEERING AND TECHNOLOGYENGINEERING PHYSICSCourse code: GR18A1004L/T/P/C: 3/1/0/4Course Objectives: At the end of the course the student is expected to Demonstrate skills in scientific inquiry and problem solving techniques. Illustrate the wave nature of light through the phenomena of interference and diffraction. Interpret the properties of Laser light and its uses in optical fiber communication. Classify and analyze the properties of solid and engineered semiconductor materials. Demonstrate competence and understanding of the concepts of Harmonic oscillations andwaves. Course Outcomes: At the completion of this course, students will be able to: Apply the phenomenon of interference and diffraction of waves. Analyze the properties of Laser and its propagation in optical fibers. Classify materials based on free electron theory. Extend the knowledge of characterization techniques to know the composition of Nano material. Describe the quality factor for damped mechanical and electrical oscillators. Unit I: WAVE OPTICSHuygens’s principle, Superposition of waves and interference of light by wave front splitting andamplitude splitting, Young’s double slit experiment, Interference in thin films by reflection,Newton’s rings, Michelson’s interferometer, Fraunhofer diffraction from a single slit, double slitand N slits, Diffraction grating: Grating spectrum and resolving power.Unit II: LASERS AND FIBER OPTICSLasers: Interaction of radiation with matter: Spontaneous and Stimulated emission andabsorption, Einstein coefficients, Characterizes of lasers, Resonating cavity, Active medium,pumping, population inversion, Construction and working of laser: Ruby laser, He-Ne laser,application of lasers.Fiber Optics: In

1. Programme Offered: The programme offered by the Department is B. Tech in Civil Engineering, a four- year regular programme. 2. Medium of Instruction: The medium of instruction (including examinations and reports) is English. 3. Admissions: Admission to the B. Tech in Civil Engineering Programme shall be made subject to the