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Lesson Plan
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:ADVANCE CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Design of water Tanks; circular; using working stress and Limit State
Method
2 Design of water Tanks; circular; using working stress and Limit State
Method
3 Design of water Tanks; circular; using working stress and Limit State
Method
2nd week
4 Design of water Tanks; circular; using working stress and Limit State
Method
5 rectangular; using working stress and Limit State Method
6 rectangular; using working stress and Limit State Method
3rd week
7 rectangular; using working stress and Limit State Method
8 underground, surface and OHSR, using working stress and Limit State
Method
9 underground, surface and OHSR, using working stress and Limit State
Method
Lesson Plan
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:ADVANCE CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 Bunkers & Silos;
11 Bunkers & Silos;
12 Bunkers & Silos;
5th week
13 Bunkers & Silos;
14 Bunkers & Silos;
15 Bunkers & Silos;
6th week
16 Janssen’s theory;
17 Janssen’s theory;
18 Airy’s Theory;
Lesson Plan
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:ADVANCE CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Bunkers with sloping bottom,
20 Bunkers with sloping bottom,
21 high side wall,
8th week
22 high side wall,
23 Battery of Bunkers with low and high side walls
24 Battery of Bunkers with low and high side walls
9th week
25 Battery of Bunkers with low and high side walls
26 Battery of Bunkers with low and high side walls
27 Reinforced Concrete chimneys,
Lesson Plan
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:ADVANCE CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Reinforced Concrete chimneys,
29 Reinforced Concrete chimneys,
30 Reinforced Concrete chimneys,
11th week
31 Reinforced Concrete chimneys,
32 Reinforced Concrete chimneys,
33 Reinforced Concrete chimneys,
12th week
34 Reinforced Concrete Cooling Towers
35 Reinforced Concrete Cooling Towers
36 Reinforced Concrete Cooling Towers
Lesson Plan
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:ADVANCE CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 Reinforced Concrete Cooling Towers
38 Introduction of Design of machine foundation in concrete
39 Introduction of Design of machine foundation in concre
14th week
40 Introduction of Design of machine foundation in concre
41 Introduction of Design of machine foundation in concre
42 Introduction of Design of machine foundation in concre
15th
43 Introduction of Design of machine foundation in concre
44 Introduction of Design of machine foundation in concre
45 Introduction of Design of machine foundation in concre
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:CONSTRUCTION AND MAINTAINENCE MANAGEMENT
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Services in Residential, Commercial and Medical buildings;
2 Services in Residential, Commercial and Medical buildings;
3 Sanitation, water supply, electric wiring,
2nd week
4 rain water disposal,
5 lighting & illumination,
6 calculation methods for these services
3rd week
7 calculation methods for these services
8 Air Conditioning & Ventilation:
9 Natural ventilation, control cooling systems, modern systems of air
conditioning,
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:CONSTRUCTION AND MAINTAINENCE MANAGEMENT
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 ducting systems,
11 different mechanical means of air conditioning.
12 CCD-CS: General principles of transmission and passage of sound
reverberation,
5th week
13 absorption, reflection, acoustice materials and their co-efficiency,
14 principles of good acoustic design.
15 Thermal Insulation: Behavior of various building materials & thermal
conductivity
6th week
16 Thermal insulation for air conditioned interior spaces,
17 working out air conditioning loads for different spaces;
18 Fire Safety Dye.
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:CONSTRUCTION AND MAINTAINENCE MANAGEMENT
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Architectural controls and building beylaws:
20 Architectural controls and building beylaws:
21 Architectural controls and building beylaws:
8th week
22 Role of building byelaws in a city,
23 Role of building byelaws in a city,
24 local byelaws and arthitectural controls,
9th week
25 local byelaws and arthitectural controls,
26 local byelaws and arthitectural controls,
27 local byelaws and arthitectural controls,
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:CONSTRUCTION AND MAINTAINENCE MANAGEMENT
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 facade control and zoning plans.
29 facade control and zoning plans.
30 facade control and zoning plans.
11th week
31 facade control and zoning plans.
32 facade control and zoning plans.
33 Regional planning:
12th week
34 Regional planning:
35 Understanding of physical,
36 Understanding of physical,
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:CONSTRUCTION AND MAINTAINENCE MANAGEMENT
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 social and economical parameters for regional planning.
38 social and economical parameters for regional planning.
39 social and economical parameters for regional planning.
14th week
40 social and economical parameters for regional planning.
41 Landscaping: Forces of man and nature,
42 Landscaping: Forces of man and nature,
15th
43 their relationship and effect on shaping landscape,
44 their relationship and effect on shaping landscape,
45 site analysis
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:THEORY OF SHELLS AND PLATES
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Simple bending of plates-
2 Assumption in thin plate theory-
3 Different relationships-Different Boundary Conditions for plates-
2nd week
4 Plates subjected to lateral loads-
5 Plates subjected to lateral loads-
6 Navier’s method for simple supported plates-
3rd week
7 Navier’s method for simple supported plates-
8 levy’s method for general plates-
9 levy’s method for general plates-
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:THEORY OF SHELLS AND PLATES
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 Example problems with different types of loading.
11 Example problems with different types of loading.
12 Example problems with different types of loading.
5th week
13 Circular plates subjected to Axi-symmetrical loads-concerned load,
14 Circular plates subjected to Axi-symmetrical loads-concerned load,
15 Circular plates subjected to Axi-symmetrical loads-concerned load,
6th week
16 Circular plates subjected to Axi-symmetrical loads-concerned load,
17 uniformly distributed load and varying load
18 uniformly distributed load and varying load
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:THEORY OF SHELLS AND PLATES
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Annular plate with end moments
20 Annular plate with end moments
21 Rayleigh –Ritz method –Application to different problems
8th week
22 Rayleigh –Ritz method –Application to different problems
23 Finite difference method-Finite element methodology for plates-
24 Finite difference method-Finite element methodology for plates-
9th week
25 Finite difference method-Finite element methodology for plates-
26 Orthotropic Plates
27 Orthotropic Plates
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:THEORY OF SHELLS AND PLATES
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Bending of anisotropic plates with emphasis on orthotropic plates-
29 Bending of anisotropic plates with emphasis on orthotropic plates-
30 Bending of anisotropic plates with emphasis on orthotropic plates-
11th week
31 Bending of anisotropic plates with emphasis on orthotropic plates-
32 Material Orthotropy-Structural Orthotropy-
33 Material Orthotropy-Structural Orthotropy-
12th week
34 Material Orthotropy-Structural Orthotropy-
35 Plates on elastic foundation.
36 Plates on elastic foundation.
Lesson Plan
Name of the Faculty: SONU MOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:THEORY OF SHELLS AND PLATES
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 Plates on elastic foundation.
38 Shells-Classification of shells-
39 Membrane and bending theory for singly curved and doubly curved shells-
14th week
40 Membrane and bending theory for singly curved and doubly curved shells-
41 Membrane and bending theory for singly curved and doubly curved shells-
42 Membrane and bending theory for singly curved and doubly curved shells-
15th
43 Various approximations-Analysis of folded plates.
44 Various approximations-Analysis of folded plates.
45 Various approximations-Analysis of folded plates.
Lesson Plan
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:PRESTRESSED CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Principles of prestressing
2 Principles of prestressing
3 Materials of prestressing
2nd week
4 Materials of prestressing
5 Systems of prestressing
6 Systems of prestressing
3rd week
7 Systems of prestressing
8 Loss of prestress
9 Deflection of Prestressed Concrete members
Lesson Plan
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:PRESTRESSED CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 Loss of prestress
11 Loss of prestress
12 Deflection of Prestressed Concrete members
5th week
13 Deflection of Prestressed Concrete members
14 Pre-tensioned and Post-tensioned BEAM
15 Pre-tensioned and Post-tensioned beam
6th week
16 Pre-tensioned and Post-tensioned BEAM
17 Design for flexure bond and shear
18 Design of end anchorate zones using IS code method.
Lesson Plan
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:PRESTRESSED CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 beams-Design for flexure
20 beams-Design for flexure
21 IS code provisionsUltimate flexural and shear strength of prestressed
concrete sections
8th week
22 IS code provisionsUltimate flexural and shear strength of prestressed
concrete sections
23 IS code provisionsUltimate flexural and shear strength of prestressed
concrete sections
24 IS code provisionsUltimate flexural and shear strength of prestressed
concrete sections
9th week
25 IS code provisionsUltimate flexural and shear strength of prestressed
concrete sections
26 Design of end anchorate zones using IS code method.
27 Design of end anchorate zones using IS code method.
Lesson Plan
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:PRESTRESSED CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Composite beams-Analysis and design
29 Composite beams-Analysis and design
30 Composite beams-Analysis and design
11th week
31 Partial prestressing-non –prestressed reinforcements
32 Partial prestressing-non –prestressed reinforcements
33 Partial prestressing-non –prestressed reinforcements
12th week
34 Analysis of Continuous beams-cable layout-Linear transformation-
Concordant cables
35 Analysis of Continuous beams-cable layout-Linear transformation-
Concordant cables
36 Analysis of Continuous beams-cable layout-Linear transformation-
Concordant cables
Name of the Faculty: BAHADUR SINGH
Discipline:M.Tech Civil
Semester: 2nd
Subject:PRESTRESSED CONCRETE TECHNOLOGY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 Design of compression members and tension members
38 Design of compression members and tension members
39 Design of compression members and tension members
14th week
40 Circular prestressing-Water tanks-Pipes
41 Circular prestressing-Water tanks-Pipes
42 Circular prestressing-Water tanks-Pipes
15th
43 Analysis and design-IS Codal privisions
44 Analysis and design-IS Codal privisions
45 Analysis and design-IS Codal privisions.
Lesson Plan
Name of the Faculty: ISHFAQ MANZOOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:STRUCTURE STABILITY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Buckling of columns
2 Buckling of columns
3 introduction-concepts of stability
2nd week
4 introduction-concepts of stability
5 introduction-concepts of stability
6 methods of Neutral Equilibrium
3rd week
7 methods of Neutral Equilibrium
8 methods of Neutral Equilibrium
9 Axially loaded column-Eccentrically loaded column
Lesson Plan
Name of the Faculty: ISHFAQ MANZOOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:STRUCTURE STABILITY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 Euler column-Eigen value problem-
11 Euler column-Eigen value problem-
12 Axially loaded column-Eccentrically loaded column
5th week
13 Axially loaded column-Eccentrically loaded column
14 Energy principle –Raleigh Ritz method
15 Energy principle –Raleigh Ritz method
6th week
16 Energy principle –Raleigh Ritz method
17 Galerkin method –
18 Munerical methods (New mark’s difference and matrix methods)
Lesson Plan
Name of the Faculty: ISHFAQ MANZOOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:STRUCTURE STABILITY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Beams and Beam columns-introduction-
20 Beams and Beam columns-introduction-
21 Beams and Beam columns-introduction-
8th week
22 lateral buckling of beams-
23 lateral buckling of beams-
24 beam column with concentrated and distributed loads
9th week
25 beam column with concentrated and distributed loads
26 beam column with concentrated and distributed loads
27 beam column with concentrated and distributed loads
Lesson Plan
Name of the Faculty: ISHFAQ MANZOOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:STRUCTURE STABILITY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 effect of axial load on bending stiffnes
29 effect of axial load on bending stiffnes
30 effect of axial load on bending stiffnes
11th week
31 effect of axial load on bending stiffnes
32 effect of axial load on bending stiffnes
33 effect of axial load on bending stiffnes
12th week
34 Buckling of frames-introduction –
35 Buckling of frames-introduction –
36 modes of buckling-critical load using various methods.
Lesson Plan
Name of the Faculty: ISHFAQ MANZOOR
Discipline:M.Tech Civil
Semester: 2nd
Subject:STRUCTURE STABILITY
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 modes of buckling-critical load using various methods.
38 modes of buckling-critical load using various methods.
39 modes of buckling-critical load using various methods.
14th week
40 Buckling plates-Differential equation of plate buckling –
41 Buckling plates-Differential equation of plate buckling –
42 critical loan on plates for various boundary conditions-
15th
43 critical loan on plates for various boundary conditions-
44 Energy method-Finite difference method.
45 Energy method-Finite difference method.