�ݺ�ߣshows by User: BASWESHWARJIRWANKAR1

�ݺ�ߣshows by User: BASWESHWARJIRWANKAR1 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: BASWESHWARJIRWANKAR1 / Mon, 18 Nov 2024 11:29:43 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: BASWESHWARJIRWANKAR1 MODULE FIVE, ENGINEERING SURVEYS, BTCVC304, /slideshow/module-five-engineering-surveys-btcvc304/273399924 modulefive-241118112943-b0026913
ENGINEERING SURVEYS, BTCVC304, DBATU LONERE, SY CIVIL, SEMESTER III, ]]>
ENGINEERING SURVEYS, BTCVC304, DBATU LONERE, SY CIVIL, SEMESTER III, ]]> Mon, 18 Nov 2024 11:29:43 GMT /slideshow/module-five-engineering-surveys-btcvc304/273399924 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE FIVE, ENGINEERING SURVEYS, BTCVC304, BASWESHWARJIRWANKAR1 ENGINEERING SURVEYS, BTCVC304, DBATU LONERE, SY CIVIL, SEMESTER III, <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/modulefive-241118112943-b0026913-thumbnail.jpg?width=120&height=120&fit=bounds" /> ENGINEERING SURVEYS, BTCVC304, DBATU LONERE, SY CIVIL, SEMESTER III,

MODULE FIVE, ENGINEERING SURVEYS, BTCVC304, from Dr. BASWESHWAR JIRWANKAR

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0 MODULE 4 AIRPORT ENGINEERING, INFRASTRUCTURE ENGINEERING /slideshow/module-4-airport-engineering-infrastructure-engineering/273350800 m4ieae23-24-241116055814-4a0eb66e
MODULE 4 AIRPORT ENGINEERING, Airport Engineering: Planning, Airport Surveys, Site Selection, Zoning Laws, Runways, Geometric Design, Airport Capacity, Terminal Buildings, Parking Systems, Taxiways, Hangers, Airport Drainage, Air Traffic Control, Airport Lighting ]]>
MODULE 4 AIRPORT ENGINEERING, Airport Engineering: Planning, Airport Surveys, Site Selection, Zoning Laws, Runways, Geometric Design, Airport Capacity, Terminal Buildings, Parking Systems, Taxiways, Hangers, Airport Drainage, Air Traffic Control, Airport Lighting ]]> Sat, 16 Nov 2024 05:58:13 GMT /slideshow/module-4-airport-engineering-infrastructure-engineering/273350800 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE 4 AIRPORT ENGINEERING, INFRASTRUCTURE ENGINEERING BASWESHWARJIRWANKAR1 MODULE 4 AIRPORT ENGINEERING, Airport Engineering: Planning, Airport Surveys, Site Selection, Zoning Laws, Runways, Geometric Design, Airport Capacity, Terminal Buildings, Parking Systems, Taxiways, Hangers, Airport Drainage, Air Traffic Control, Airport Lighting <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/m4ieae23-24-241116055814-4a0eb66e-thumbnail.jpg?width=120&height=120&fit=bounds" /> MODULE 4 AIRPORT ENGINEERING, Airport Engineering: Planning, Airport Surveys, Site Selection, Zoning Laws, Runways, Geometric Design, Airport Capacity, Terminal Buildings, Parking Systems, Taxiways, Hangers, Airport Drainage, Air Traffic Control, Airport Lighting

MODULE 4 AIRPORT ENGINEERING, INFRASTRUCTURE ENGINEERING from Dr. BASWESHWAR JIRWANKAR

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0 M3_IE_D&HE.pdf /slideshow/m3iedhepdf/261735494 m3iedhe-231004044530-a115e57f
Dock and Harbor Engineering: Inland Water Transport in India, Tides, Winds and Waves Erosion, Transport of Sediments, Beach Drift, Littoral Drift, Sand Bars, Coast Protection, Classification of Ports and Harbors, Site Selection, Features of Break Waters, Jetties, Wharves, Piers, Facilities required, Dry Docks, Wet Docks, Lift Docks. Floating Docks, Spillways, Navigational Aids, Lighthouses, Terminal Buildings, and Dredging- Special Equipment. ]]>
Dock and Harbor Engineering: Inland Water Transport in India, Tides, Winds and Waves Erosion, Transport of Sediments, Beach Drift, Littoral Drift, Sand Bars, Coast Protection, Classification of Ports and Harbors, Site Selection, Features of Break Waters, Jetties, Wharves, Piers, Facilities required, Dry Docks, Wet Docks, Lift Docks. Floating Docks, Spillways, Navigational Aids, Lighthouses, Terminal Buildings, and Dredging- Special Equipment. ]]> Wed, 04 Oct 2023 04:45:29 GMT /slideshow/m3iedhepdf/261735494 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) M3_IE_D&HE.pdf BASWESHWARJIRWANKAR1 Dock and Harbor Engineering: Inland Water Transport in India, Tides, Winds and Waves Erosion, Transport of Sediments, Beach Drift, Littoral Drift, Sand Bars, Coast Protection, Classification of Ports and Harbors, Site Selection, Features of Break Waters, Jetties, Wharves, Piers, Facilities required, Dry Docks, Wet Docks, Lift Docks. Floating Docks, Spillways, Navigational Aids, Lighthouses, Terminal Buildings, and Dredging- Special Equipment. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/m3iedhe-231004044530-a115e57f-thumbnail.jpg?width=120&height=120&fit=bounds" /> Dock and Harbor Engineering: Inland Water Transport in India, Tides, Winds and Waves Erosion, Transport of Sediments, Beach Drift, Littoral Drift, Sand Bars, Coast Protection, Classification of Ports and Harbors, Site Selection, Features of Break Waters, Jetties, Wharves, Piers, Facilities required, Dry Docks, Wet Docks, Lift Docks. Floating Docks, Spillways, Navigational Aids, Lighthouses, Terminal Buildings, and Dredging- Special Equipment.

M3_IE_D&HE.pdf from Dr. BASWESHWAR JIRWANKAR

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0 TRANSPORTATION_ENGINEERING_BRIDGING.pdf /slideshow/transportationengineeringbridgingpdf/257783132 transportationengineeringbridging-230511122522-5aa8dd3f
Course Outcomes- CO1- Comprehend various types of transportation systems and their history of the development CO2- Comprehend various types of pavements CO3- Design the pavements by considering various aspects associated with traffic safety measures. Topic Learning Outcomes: C603.1.1 Understand the significance of various modes of transportation C603.1.2 Discuss developments in road construction and Classify roads based on certain criteria. C603.1.3 Describe factors for selecting road alignments and carrying out road surveys. C603.2.1 Impart knowledge about various materials used for highway construction. C603.2.2 Describe tests carried out on materials used for highway construction. C603.2.3 Introduce the fundamental concepts of highway construction C603.2.4 Classify pavements on the basis of structural behavior. C603.3.1 Design different road geometrical elements. C603.3.2 Identify traffic stream characteristics and Design a pre-timed signalized intersection. C603.3.3 Identify causes of road accidents and measures for road safety. C603.3.3 Analyze the important features of pavement designing.]]>
Course Outcomes- CO1- Comprehend various types of transportation systems and their history of the development CO2- Comprehend various types of pavements CO3- Design the pavements by considering various aspects associated with traffic safety measures. Topic Learning Outcomes: C603.1.1 Understand the significance of various modes of transportation C603.1.2 Discuss developments in road construction and Classify roads based on certain criteria. C603.1.3 Describe factors for selecting road alignments and carrying out road surveys. C603.2.1 Impart knowledge about various materials used for highway construction. C603.2.2 Describe tests carried out on materials used for highway construction. C603.2.3 Introduce the fundamental concepts of highway construction C603.2.4 Classify pavements on the basis of structural behavior. C603.3.1 Design different road geometrical elements. C603.3.2 Identify traffic stream characteristics and Design a pre-timed signalized intersection. C603.3.3 Identify causes of road accidents and measures for road safety. C603.3.3 Analyze the important features of pavement designing.]]> Thu, 11 May 2023 12:25:21 GMT /slideshow/transportationengineeringbridgingpdf/257783132 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) TRANSPORTATION_ENGINEERING_BRIDGING.pdf BASWESHWARJIRWANKAR1 Course Outcomes- CO1- Comprehend various types of transportation systems and their history of the development CO2- Comprehend various types of pavements CO3- Design the pavements by considering various aspects associated with traffic safety measures. Topic Learning Outcomes: C603.1.1 Understand the significance of various modes of transportation C603.1.2 Discuss developments in road construction and Classify roads based on certain criteria. C603.1.3 Describe factors for selecting road alignments and carrying out road surveys. C603.2.1 Impart knowledge about various materials used for highway construction. C603.2.2 Describe tests carried out on materials used for highway construction. C603.2.3 Introduce the fundamental concepts of highway construction C603.2.4 Classify pavements on the basis of structural behavior. C603.3.1 Design different road geometrical elements. C603.3.2 Identify traffic stream characteristics and Design a pre-timed signalized intersection. C603.3.3 Identify causes of road accidents and measures for road safety. C603.3.3 Analyze the important features of pavement designing. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/transportationengineeringbridging-230511122522-5aa8dd3f-thumbnail.jpg?width=120&height=120&fit=bounds" /> Course Outcomes- CO1- Comprehend various types of transportation systems and their history of the development CO2- Comprehend various types of pavements CO3- Design the pavements by considering various aspects associated with traffic safety measures. Topic Learning Outcomes: C603.1.1 Understand the significance of various modes of transportation C603.1.2 Discuss developments in road construction and Classify roads based on certain criteria. C603.1.3 Describe factors for selecting road alignments and carrying out road surveys. C603.2.1 Impart knowledge about various materials used for highway construction. C603.2.2 Describe tests carried out on materials used for highway construction. C603.2.3 Introduce the fundamental concepts of highway construction C603.2.4 Classify pavements on the basis of structural behavior. C603.3.1 Design different road geometrical elements. C603.3.2 Identify traffic stream characteristics and Design a pre-timed signalized intersection. C603.3.3 Identify causes of road accidents and measures for road safety. C603.3.3 Analyze the important features of pavement designing.

TRANSPORTATION_ENGINEERING_BRIDGING.pdf from Dr. BASWESHWAR JIRWANKAR

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0 TRANSPORTATION_ENGINEERING_M5.pdf /slideshow/transportationengineeringm5pdf/257783091 transportationengineeringm5-230511122120-48295c00
Module 5: Pavement Design (8 Lectures) Basic Principles, Methods for Different Types of Pavements, Design of flexible pavement using IRC: 37- 2012, Design of rigid pavement using IRC: 58-2011 Other modes of Transport Introduction to Railways, Airways, Waterways, Pipeline Transportation, Classification, Requirements, Comparative Studies.]]>
Module 5: Pavement Design (8 Lectures) Basic Principles, Methods for Different Types of Pavements, Design of flexible pavement using IRC: 37- 2012, Design of rigid pavement using IRC: 58-2011 Other modes of Transport Introduction to Railways, Airways, Waterways, Pipeline Transportation, Classification, Requirements, Comparative Studies.]]> Thu, 11 May 2023 12:21:20 GMT /slideshow/transportationengineeringm5pdf/257783091 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) TRANSPORTATION_ENGINEERING_M5.pdf BASWESHWARJIRWANKAR1 Module 5: Pavement Design (8 Lectures) Basic Principles, Methods for Different Types of Pavements, Design of flexible pavement using IRC: 37- 2012, Design of rigid pavement using IRC: 58-2011 Other modes of Transport Introduction to Railways, Airways, Waterways, Pipeline Transportation, Classification, Requirements, Comparative Studies. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/transportationengineeringm5-230511122120-48295c00-thumbnail.jpg?width=120&height=120&fit=bounds" /> Module 5: Pavement Design (8 Lectures) Basic Principles, Methods for Different Types of Pavements, Design of flexible pavement using IRC: 37- 2012, Design of rigid pavement using IRC: 58-2011 Other modes of Transport Introduction to Railways, Airways, Waterways, Pipeline Transportation, Classification, Requirements, Comparative Studies.

TRANSPORTATION_ENGINEERING_M5.pdf from Dr. BASWESHWAR JIRWANKAR

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0 TRANSPORTATION_ENGINEERING_M4.pdf /slideshow/transportationengineeringm4pdf/257783033 transportationengineeringm4-230511121653-721bfba9
Module 4: Traffic Engineering (8 Lectures) Traffic Characteristics, Speed, Journey Time and Delays, Vehicle Volume Counts, Origin and Destination Studies, Analysis and Interpretation of Survey Data, Traffic Operations, Design of Signals and Rotary intersections, Parking Space Design,Highway Lighting, Planning and Administration, Road Markings, Signs Road Accidents and Safety:Classification, Causes, Mitigation and Control Measures, Aspects of Safety in Usage of Roads, Type and Design of anti-crash barriers, Introduction to Intelligent Transport Systems (ITS). ]]>
Module 4: Traffic Engineering (8 Lectures) Traffic Characteristics, Speed, Journey Time and Delays, Vehicle Volume Counts, Origin and Destination Studies, Analysis and Interpretation of Survey Data, Traffic Operations, Design of Signals and Rotary intersections, Parking Space Design,Highway Lighting, Planning and Administration, Road Markings, Signs Road Accidents and Safety:Classification, Causes, Mitigation and Control Measures, Aspects of Safety in Usage of Roads, Type and Design of anti-crash barriers, Introduction to Intelligent Transport Systems (ITS). ]]> Thu, 11 May 2023 12:16:53 GMT /slideshow/transportationengineeringm4pdf/257783033 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) TRANSPORTATION_ENGINEERING_M4.pdf BASWESHWARJIRWANKAR1 Module 4: Traffic Engineering (8 Lectures) Traffic Characteristics, Speed, Journey Time and Delays, Vehicle Volume Counts, Origin and Destination Studies, Analysis and Interpretation of Survey Data, Traffic Operations, Design of Signals and Rotary intersections, Parking Space Design,Highway Lighting, Planning and Administration, Road Markings, Signs Road Accidents and Safety:Classification, Causes, Mitigation and Control Measures, Aspects of Safety in Usage of Roads, Type and Design of anti-crash barriers, Introduction to Intelligent Transport Systems (ITS). <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/transportationengineeringm4-230511121653-721bfba9-thumbnail.jpg?width=120&height=120&fit=bounds" /> Module 4: Traffic Engineering (8 Lectures) Traffic Characteristics, Speed, Journey Time and Delays, Vehicle Volume Counts, Origin and Destination Studies, Analysis and Interpretation of Survey Data, Traffic Operations, Design of Signals and Rotary intersections, Parking Space Design,Highway Lighting, Planning and Administration, Road Markings, Signs Road Accidents and Safety:Classification, Causes, Mitigation and Control Measures, Aspects of Safety in Usage of Roads, Type and Design of anti-crash barriers, Introduction to Intelligent Transport Systems (ITS).

TRANSPORTATION_ENGINEERING_M4.pdf from Dr. BASWESHWAR JIRWANKAR

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0 TRANSPORTATION_ENGINEERING_M3.pdf /slideshow/transportationengineeringm3pdf/257782974 transportationengineeringm3-230511121202-9f5fe88a
Module 3: (8 Lectures) Highway Materials: Soil – relevant properties, Various tests, Aggregates – strength, hardness, toughness, soundness, durability, shape, specific gravity, water absorption, Bituminous materials – Bitumen, Tar, and Asphalt – various properties, Design of Bituminous paving mixes-Marshall stability test ]]>
Module 3: (8 Lectures) Highway Materials: Soil – relevant properties, Various tests, Aggregates – strength, hardness, toughness, soundness, durability, shape, specific gravity, water absorption, Bituminous materials – Bitumen, Tar, and Asphalt – various properties, Design of Bituminous paving mixes-Marshall stability test ]]> Thu, 11 May 2023 12:12:02 GMT /slideshow/transportationengineeringm3pdf/257782974 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) TRANSPORTATION_ENGINEERING_M3.pdf BASWESHWARJIRWANKAR1 Module 3: (8 Lectures) Highway Materials: Soil – relevant properties, Various tests, Aggregates – strength, hardness, toughness, soundness, durability, shape, specific gravity, water absorption, Bituminous materials – Bitumen, Tar, and Asphalt – various properties, Design of Bituminous paving mixes-Marshall stability test <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/transportationengineeringm3-230511121202-9f5fe88a-thumbnail.jpg?width=120&height=120&fit=bounds" /> Module 3: (8 Lectures) Highway Materials: Soil – relevant properties, Various tests, Aggregates – strength, hardness, toughness, soundness, durability, shape, specific gravity, water absorption, Bituminous materials – Bitumen, Tar, and Asphalt – various properties, Design of Bituminous paving mixes-Marshall stability test

TRANSPORTATION_ENGINEERING_M3.pdf from Dr. BASWESHWAR JIRWANKAR

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0 TRANSPORTATION_ENGINEERING_M2.pdf /slideshow/transportationengineeringm2pdf/257782758 transportationengineeringm2-230511115801-bb11166b
Module 2: (6 Lectures) Geometric Design- Cross section elements, Sight distances, Horizontal alignment, Vertical alignment, Intersections, Construction of Pavements, Construction and Maintenance of Drainage, Road Arboriculture ]]>
Module 2: (6 Lectures) Geometric Design- Cross section elements, Sight distances, Horizontal alignment, Vertical alignment, Intersections, Construction of Pavements, Construction and Maintenance of Drainage, Road Arboriculture ]]> Thu, 11 May 2023 11:58:01 GMT /slideshow/transportationengineeringm2pdf/257782758 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) TRANSPORTATION_ENGINEERING_M2.pdf BASWESHWARJIRWANKAR1 Module 2: (6 Lectures) Geometric Design- Cross section elements, Sight distances, Horizontal alignment, Vertical alignment, Intersections, Construction of Pavements, Construction and Maintenance of Drainage, Road Arboriculture <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/transportationengineeringm2-230511115801-bb11166b-thumbnail.jpg?width=120&height=120&fit=bounds" /> Module 2: (6 Lectures) Geometric Design- Cross section elements, Sight distances, Horizontal alignment, Vertical alignment, Intersections, Construction of Pavements, Construction and Maintenance of Drainage, Road Arboriculture

TRANSPORTATION_ENGINEERING_M2.pdf from Dr. BASWESHWAR JIRWANKAR

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0 TRANSPORTATION_ENGINEERING_M1.pdf /slideshow/transportationengineeringm1pdf/257782672 transportationengineeringm1-230511115312-b30e4a81
Module 1: Introduction (6 Lectures) •Importance of various modes of transportation, •Highway Engineering, •Road Classification, •Developments in Road Construction, •Highway Planning, •Alignment and Surveys]]>
Module 1: Introduction (6 Lectures) •Importance of various modes of transportation, •Highway Engineering, •Road Classification, •Developments in Road Construction, •Highway Planning, •Alignment and Surveys]]> Thu, 11 May 2023 11:53:12 GMT /slideshow/transportationengineeringm1pdf/257782672 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) TRANSPORTATION_ENGINEERING_M1.pdf BASWESHWARJIRWANKAR1 Module 1: Introduction (6 Lectures) •Importance of various modes of transportation, •Highway Engineering, •Road Classification, •Developments in Road Construction, •Highway Planning, •Alignment and Surveys <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/transportationengineeringm1-230511115312-b30e4a81-thumbnail.jpg?width=120&height=120&fit=bounds" /> Module 1: Introduction (6 Lectures) •Importance of various modes of transportation, •Highway Engineering, •Road Classification, •Developments in Road Construction, •Highway Planning, •Alignment and Surveys

TRANSPORTATION_ENGINEERING_M1.pdf from Dr. BASWESHWAR JIRWANKAR

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0 MODULE 5 EG.pdf /slideshow/module-5-egpdf/251506932 module5eg-220404090613
Geology of Dams, Reservoirs, Tunnels and Bridges, Dam, types of dams, Influence of geological conditions on location, alignment, design and types of a dam, geological considerations in site selection for dams, Site improvement techniques, dams on carbonate rocks, sedimentary rocks, folded strata and Deccan traps, favorable and unfavorable geological conditions for a reservoir site. Tunneling:- Types of tunnels, the influence of geological conditions on tunneling, difficulties during tunneling, tunnel lining, tunneling in folded strata, sedimentary rocks and Deccan traps. Bridges:- Types of bridges, dependence of types of bridges on geological conditions.]]>
Geology of Dams, Reservoirs, Tunnels and Bridges, Dam, types of dams, Influence of geological conditions on location, alignment, design and types of a dam, geological considerations in site selection for dams, Site improvement techniques, dams on carbonate rocks, sedimentary rocks, folded strata and Deccan traps, favorable and unfavorable geological conditions for a reservoir site. Tunneling:- Types of tunnels, the influence of geological conditions on tunneling, difficulties during tunneling, tunnel lining, tunneling in folded strata, sedimentary rocks and Deccan traps. Bridges:- Types of bridges, dependence of types of bridges on geological conditions.]]> Mon, 04 Apr 2022 09:06:13 GMT /slideshow/module-5-egpdf/251506932 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE 5 EG.pdf BASWESHWARJIRWANKAR1 Geology of Dams, Reservoirs, Tunnels and Bridges, Dam, types of dams, Influence of geological conditions on location, alignment, design and types of a dam, geological considerations in site selection for dams, Site improvement techniques, dams on carbonate rocks, sedimentary rocks, folded strata and Deccan traps, favorable and unfavorable geological conditions for a reservoir site. Tunneling:- Types of tunnels, the influence of geological conditions on tunneling, difficulties during tunneling, tunnel lining, tunneling in folded strata, sedimentary rocks and Deccan traps. Bridges:- Types of bridges, dependence of types of bridges on geological conditions. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/module5eg-220404090613-thumbnail.jpg?width=120&height=120&fit=bounds" /> Geology of Dams, Reservoirs, Tunnels and Bridges, Dam, types of dams, Influence of geological conditions on location, alignment, design and types of a dam, geological considerations in site selection for dams, Site improvement techniques, dams on carbonate rocks, sedimentary rocks, folded strata and Deccan traps, favorable and unfavorable geological conditions for a reservoir site. Tunneling:- Types of tunnels, the influence of geological conditions on tunneling, difficulties during tunneling, tunnel lining, tunneling in folded strata, sedimentary rocks and Deccan traps. Bridges:- Types of bridges, dependence of types of bridges on geological conditions.

MODULE 5 EG.pdf from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-4 EG.pdf /slideshow/module4-egpdf/251506894 module-4eg-220404085914
Preliminary geological survey, steps in geological investigations, consideration of structural features. Exploratory drilling: observations, preservation of cores, core logging, core recovery, graphical representation of core log, limitation of exploratory drilling method.]]>
Preliminary geological survey, steps in geological investigations, consideration of structural features. Exploratory drilling: observations, preservation of cores, core logging, core recovery, graphical representation of core log, limitation of exploratory drilling method.]]> Mon, 04 Apr 2022 08:59:14 GMT /slideshow/module4-egpdf/251506894 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-4 EG.pdf BASWESHWARJIRWANKAR1 Preliminary geological survey, steps in geological investigations, consideration of structural features. Exploratory drilling: observations, preservation of cores, core logging, core recovery, graphical representation of core log, limitation of exploratory drilling method. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/module-4eg-220404085914-thumbnail.jpg?width=120&height=120&fit=bounds" /> Preliminary geological survey, steps in geological investigations, consideration of structural features. Exploratory drilling: observations, preservation of cores, core logging, core recovery, graphical representation of core log, limitation of exploratory drilling method.

MODULE-4 EG.pdf from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-3 EG.pdf /BASWESHWARJIRWANKAR1/module3-egpdf module-3eg-220404084542
Structural geology is the study of the three-dimensional distribution of rock units concerning their deformational histories. The primary goal of structural geology is to use measurements of present-day rock geometries to uncover information about the history of deformation (strain) in the rocks, and ultimately, to understand the stress field that resulted in the observed strain and geometries. ]]>
Structural geology is the study of the three-dimensional distribution of rock units concerning their deformational histories. The primary goal of structural geology is to use measurements of present-day rock geometries to uncover information about the history of deformation (strain) in the rocks, and ultimately, to understand the stress field that resulted in the observed strain and geometries. ]]> Mon, 04 Apr 2022 08:45:42 GMT /BASWESHWARJIRWANKAR1/module3-egpdf BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-3 EG.pdf BASWESHWARJIRWANKAR1 Structural geology is the study of the three-dimensional distribution of rock units concerning their deformational histories. The primary goal of structural geology is to use measurements of present-day rock geometries to uncover information about the history of deformation (strain) in the rocks, and ultimately, to understand the stress field that resulted in the observed strain and geometries. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/module-3eg-220404084542-thumbnail.jpg?width=120&height=120&fit=bounds" /> Structural geology is the study of the three-dimensional distribution of rock units concerning their deformational histories. The primary goal of structural geology is to use measurements of present-day rock geometries to uncover information about the history of deformation (strain) in the rocks, and ultimately, to understand the stress field that resulted in the observed strain and geometries.

MODULE-3 EG.pdf from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-I EG.pdf /slideshow/modulei-egpdf/251506702 module-ieg-220404083707
Scope of Engg. Geology and Civil Engineering Applications. Geology in Construction Jobs, Geology & Civil Engineering, Geology in Water Resource Development, Brief History of Formation of Earth and Earth Crust, Formation of different rocks, ]]>
Scope of Engg. Geology and Civil Engineering Applications. Geology in Construction Jobs, Geology & Civil Engineering, Geology in Water Resource Development, Brief History of Formation of Earth and Earth Crust, Formation of different rocks, ]]> Mon, 04 Apr 2022 08:37:06 GMT /slideshow/modulei-egpdf/251506702 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-I EG.pdf BASWESHWARJIRWANKAR1 Scope of Engg. Geology and Civil Engineering Applications. Geology in Construction Jobs, Geology & Civil Engineering, Geology in Water Resource Development, Brief History of Formation of Earth and Earth Crust, Formation of different rocks, <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/module-ieg-220404083707-thumbnail.jpg?width=120&height=120&fit=bounds" /> Scope of Engg. Geology and Civil Engineering Applications. Geology in Construction Jobs, Geology & Civil Engineering, Geology in Water Resource Development, Brief History of Formation of Earth and Earth Crust, Formation of different rocks,

MODULE-I EG.pdf from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-II EG /slideshow/eg-unitiipdf/251505702 egunit-ii-220404063120
Mineralogy: Physical properties of mineral, Classification of minerals, Petrology: Definition, rock cycle, Igneous rocks: origin, textures and structures, classification, concordant and dis-concordant intrusions, civil engineering significance, Secondary rocks: formation, classification, residual deposits: soil, laterite and bauxite and their importance, Sedimentary deposits: formation, textures, classification and structures, civil engineering significance, chemical and organic deposits, Metamorphic rocks: agents and types of metamorphism, stress and anti-stress minerals, structures, products of metamorphism.]]>
Mineralogy: Physical properties of mineral, Classification of minerals, Petrology: Definition, rock cycle, Igneous rocks: origin, textures and structures, classification, concordant and dis-concordant intrusions, civil engineering significance, Secondary rocks: formation, classification, residual deposits: soil, laterite and bauxite and their importance, Sedimentary deposits: formation, textures, classification and structures, civil engineering significance, chemical and organic deposits, Metamorphic rocks: agents and types of metamorphism, stress and anti-stress minerals, structures, products of metamorphism.]]> Mon, 04 Apr 2022 06:31:19 GMT /slideshow/eg-unitiipdf/251505702 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-II EG BASWESHWARJIRWANKAR1 Mineralogy: Physical properties of mineral, Classification of minerals, Petrology: Definition, rock cycle, Igneous rocks: origin, textures and structures, classification, concordant and dis-concordant intrusions, civil engineering significance, Secondary rocks: formation, classification, residual deposits: soil, laterite and bauxite and their importance, Sedimentary deposits: formation, textures, classification and structures, civil engineering significance, chemical and organic deposits, Metamorphic rocks: agents and types of metamorphism, stress and anti-stress minerals, structures, products of metamorphism. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/egunit-ii-220404063120-thumbnail.jpg?width=120&height=120&fit=bounds" /> Mineralogy: Physical properties of mineral, Classification of minerals, Petrology: Definition, rock cycle, Igneous rocks: origin, textures and structures, classification, concordant and dis-concordant intrusions, civil engineering significance, Secondary rocks: formation, classification, residual deposits: soil, laterite and bauxite and their importance, Sedimentary deposits: formation, textures, classification and structures, civil engineering significance, chemical and organic deposits, Metamorphic rocks: agents and types of metamorphism, stress and anti-stress minerals, structures, products of metamorphism.

MODULE-II EG from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-VI BUILDING PLANNING AND DESIGN BTCVC606 /slideshow/modulevi-building-planning-and-design-btcvc606/238921758 module-viacoustics-201020095752
Absorption of sound, various materials, Sabine’ s formula, optimum reverberation time, conditions for good acoustics Sound insulation: Acceptable noise levels, noise prevention at its source, transmission of noise, Noise control-general considerations]]>
Absorption of sound, various materials, Sabine’ s formula, optimum reverberation time, conditions for good acoustics Sound insulation: Acceptable noise levels, noise prevention at its source, transmission of noise, Noise control-general considerations]]> Tue, 20 Oct 2020 09:57:52 GMT /slideshow/modulevi-building-planning-and-design-btcvc606/238921758 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-VI BUILDING PLANNING AND DESIGN BTCVC606 BASWESHWARJIRWANKAR1 Absorption of sound, various materials, Sabine’ s formula, optimum reverberation time, conditions for good acoustics Sound insulation: Acceptable noise levels, noise prevention at its source, transmission of noise, Noise control-general considerations <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/module-viacoustics-201020095752-thumbnail.jpg?width=120&height=120&fit=bounds" /> Absorption of sound, various materials, Sabine’ s formula, optimum reverberation time, conditions for good acoustics Sound insulation: Acceptable noise levels, noise prevention at its source, transmission of noise, Noise control-general considerations

MODULE-VI BUILDING PLANNING AND DESIGN BTCVC606 from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-III BUILDING PLANNING AND DESIGN BTCVC606 /slideshow/moduleiii-building-planning-and-design-btcvc606/238921744 moduleiiitraditionalconst-201020095533
Traditional constructions using stone, brick, timber, bamboo, mud, lime, etc. low cost housing-materials & methods (conceptual introduction only), maintenance, repairs, rehabilitation]]>
Traditional constructions using stone, brick, timber, bamboo, mud, lime, etc. low cost housing-materials & methods (conceptual introduction only), maintenance, repairs, rehabilitation]]> Tue, 20 Oct 2020 09:55:33 GMT /slideshow/moduleiii-building-planning-and-design-btcvc606/238921744 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-III BUILDING PLANNING AND DESIGN BTCVC606 BASWESHWARJIRWANKAR1 Traditional constructions using stone, brick, timber, bamboo, mud, lime, etc. low cost housing-materials & methods (conceptual introduction only), maintenance, repairs, rehabilitation <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/moduleiiitraditionalconst-201020095533-thumbnail.jpg?width=120&height=120&fit=bounds" /> Traditional constructions using stone, brick, timber, bamboo, mud, lime, etc. low cost housing-materials & methods (conceptual introduction only), maintenance, repairs, rehabilitation

MODULE-III BUILDING PLANNING AND DESIGN BTCVC606 from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-IV INFRASTRUCTURE ENGINEERING BTCVC702 /slideshow/module4iebridgesuperstructures/238913197 module4iebridgesuperstructures-201019105914
This presentation helps you to get the conceptual idea about Bridge Superstructures as per the Syllabus of DBATU, Last Year BTech Lonere. 4.1 Bridge Engineering: Super-structures 4.2 Simple bridges or beam bridges: Deck bridges, Through bridges, Semi-through bridges 4.3 Introduction, advantages and disadvantages: Continuous bridges, Cantilever bridges, Arch bridges, Bow-string girder type bridges, Rigid frame bridges, Portal frame bridges, Suspension bridges, Cable-stayed bridges, Composite bridges 4.4 Materials for super-structures: Cement concrete, Masonry, Steel, Timber etc.]]>
This presentation helps you to get the conceptual idea about Bridge Superstructures as per the Syllabus of DBATU, Last Year BTech Lonere. 4.1 Bridge Engineering: Super-structures 4.2 Simple bridges or beam bridges: Deck bridges, Through bridges, Semi-through bridges 4.3 Introduction, advantages and disadvantages: Continuous bridges, Cantilever bridges, Arch bridges, Bow-string girder type bridges, Rigid frame bridges, Portal frame bridges, Suspension bridges, Cable-stayed bridges, Composite bridges 4.4 Materials for super-structures: Cement concrete, Masonry, Steel, Timber etc.]]> Mon, 19 Oct 2020 10:59:14 GMT /slideshow/module4iebridgesuperstructures/238913197 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-IV INFRASTRUCTURE ENGINEERING BTCVC702 BASWESHWARJIRWANKAR1 This presentation helps you to get the conceptual idea about Bridge Superstructures as per the Syllabus of DBATU, Last Year BTech Lonere. 4.1 Bridge Engineering: Super-structures 4.2 Simple bridges or beam bridges: Deck bridges, Through bridges, Semi-through bridges 4.3 Introduction, advantages and disadvantages: Continuous bridges, Cantilever bridges, Arch bridges, Bow-string girder type bridges, Rigid frame bridges, Portal frame bridges, Suspension bridges, Cable-stayed bridges, Composite bridges 4.4 Materials for super-structures: Cement concrete, Masonry, Steel, Timber etc. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/module4iebridgesuperstructures-201019105914-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation helps you to get the conceptual idea about Bridge Superstructures as per the Syllabus of DBATU, Last Year BTech Lonere. 4.1 Bridge Engineering: Super-structures 4.2 Simple bridges or beam bridges: Deck bridges, Through bridges, Semi-through bridges 4.3 Introduction, advantages and disadvantages: Continuous bridges, Cantilever bridges, Arch bridges, Bow-string girder type bridges, Rigid frame bridges, Portal frame bridges, Suspension bridges, Cable-stayed bridges, Composite bridges 4.4 Materials for super-structures: Cement concrete, Masonry, Steel, Timber etc.

MODULE-IV INFRASTRUCTURE ENGINEERING BTCVC702 from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-III INFRASTRUCTURE ENGINEERING BTCVC702 /slideshow/moduleiiiiebridgesuperstructure/238912946 module-iiiie-201019102005
This presentation helps you to get the detailed basics as per DBATU, Lonere for Last Year Civil BTech for subject Infrastructure Engg. Module-3 Bridge Engineering: Sub-structures, Determination of design discharge, Linear Water Way, Economical Span, Afflux, Scour depth, Indian Road Congress Bridge Code Abutments: Definition, Functions, Dimensions, Types, Forces acting on an abutment,Conditions of stabilityPiers: Definition, Function, Types, Forces acting on a pier, Conditions of stability, Dimensions, Location, Abutment pier Wing walls: Definition, Functions, Types, Forces acting on a wing wall, Conditions of stability, Dimensions, Precautions Materials for sub-structures: Cement concrete, Masonry, Steel etc.]]>
This presentation helps you to get the detailed basics as per DBATU, Lonere for Last Year Civil BTech for subject Infrastructure Engg. Module-3 Bridge Engineering: Sub-structures, Determination of design discharge, Linear Water Way, Economical Span, Afflux, Scour depth, Indian Road Congress Bridge Code Abutments: Definition, Functions, Dimensions, Types, Forces acting on an abutment,Conditions of stabilityPiers: Definition, Function, Types, Forces acting on a pier, Conditions of stability, Dimensions, Location, Abutment pier Wing walls: Definition, Functions, Types, Forces acting on a wing wall, Conditions of stability, Dimensions, Precautions Materials for sub-structures: Cement concrete, Masonry, Steel etc.]]> Mon, 19 Oct 2020 10:20:05 GMT /slideshow/moduleiiiiebridgesuperstructure/238912946 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-III INFRASTRUCTURE ENGINEERING BTCVC702 BASWESHWARJIRWANKAR1 This presentation helps you to get the detailed basics as per DBATU, Lonere for Last Year Civil BTech for subject Infrastructure Engg. Module-3 Bridge Engineering: Sub-structures, Determination of design discharge, Linear Water Way, Economical Span, Afflux, Scour depth, Indian Road Congress Bridge Code Abutments: Definition, Functions, Dimensions, Types, Forces acting on an abutment,�Conditions of stability�Piers: Definition, Function, Types, Forces acting on a pier, Conditions of stability, Dimensions, Location, Abutment pier Wing walls: Definition, Functions, Types, Forces acting on a wing wall, Conditions of stability, Dimensions, Precautions Materials for sub-structures: Cement concrete, Masonry, Steel etc. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/module-iiiie-201019102005-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation helps you to get the detailed basics as per DBATU, Lonere for Last Year Civil BTech for subject Infrastructure Engg. Module-3 Bridge Engineering: Sub-structures, Determination of design discharge, Linear Water Way, Economical Span, Afflux, Scour depth, Indian Road Congress Bridge Code Abutments: Definition, Functions, Dimensions, Types, Forces acting on an abutment,�Conditions of stability�Piers: Definition, Function, Types, Forces acting on a pier, Conditions of stability, Dimensions, Location, Abutment pier Wing walls: Definition, Functions, Types, Forces acting on a wing wall, Conditions of stability, Dimensions, Precautions Materials for sub-structures: Cement concrete, Masonry, Steel etc.

MODULE-III INFRASTRUCTURE ENGINEERING BTCVC702 from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-II INFRASTRUCTURE ENGINEERING BTCVC702 /BASWESHWARJIRWANKAR1/module-2railwayenggpartii module-2railway-enggpart-2-201019101615
This presentation helps you to understand all concepts as per DBATU, Lonere for Last Year BTech Civil Subject- Infrastructural Engg. Module-II Points and Crossings: Standard types, Design of simple turnout, various types of Junctions, Stations and Yards: Purpose, Location, Site selection, general layouts of Terminus and Junction, Signaling and Interlocking, Construction and Maintenance of Track, Modern trends in Railways etc.]]>
This presentation helps you to understand all concepts as per DBATU, Lonere for Last Year BTech Civil Subject- Infrastructural Engg. Module-II Points and Crossings: Standard types, Design of simple turnout, various types of Junctions, Stations and Yards: Purpose, Location, Site selection, general layouts of Terminus and Junction, Signaling and Interlocking, Construction and Maintenance of Track, Modern trends in Railways etc.]]> Mon, 19 Oct 2020 10:16:15 GMT /BASWESHWARJIRWANKAR1/module-2railwayenggpartii BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-II INFRASTRUCTURE ENGINEERING BTCVC702 BASWESHWARJIRWANKAR1 This presentation helps you to understand all concepts as per DBATU, Lonere for Last Year BTech Civil Subject- Infrastructural Engg. Module-II Points and Crossings: Standard types, Design of simple turnout, various types of Junctions, Stations and Yards: Purpose, Location, Site selection, general layouts of Terminus and Junction, Signaling and Interlocking, Construction and Maintenance of Track, Modern trends in Railways etc. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/module-2railway-enggpart-2-201019101615-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation helps you to understand all concepts as per DBATU, Lonere for Last Year BTech Civil Subject- Infrastructural Engg. Module-II Points and Crossings: Standard types, Design of simple turnout, various types of Junctions, Stations and Yards: Purpose, Location, Site selection, general layouts of Terminus and Junction, Signaling and Interlocking, Construction and Maintenance of Track, Modern trends in Railways etc.

MODULE-II INFRASTRUCTURE ENGINEERING BTCVC702 from Dr. BASWESHWAR JIRWANKAR

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0 MODULE-V INFRASTRUCTURE ENGINEERING BTCVC702 /slideshow/module5ie-tunnelengineering/238912878 module5ietunnelengineering-201019100925
This presentation provides you the conceptual knowledge as per DBATU, Lonere Last Year BTech Civil subject, Infrastructure Engg. Module-V Tunnel Engineering Shape and Size of Tunnel Shafts, Pilot Tunnels, Tunneling in Hard Rock, Tunneling in Soft Materials, Drilling-Patterns, Blasting, Timbering, Mucking, Tunnel Lining, Advances In Tunneling Methods, Safety Measures, Ventilation, Lighting and Drainage of Tunnels etc.]]>
This presentation provides you the conceptual knowledge as per DBATU, Lonere Last Year BTech Civil subject, Infrastructure Engg. Module-V Tunnel Engineering Shape and Size of Tunnel Shafts, Pilot Tunnels, Tunneling in Hard Rock, Tunneling in Soft Materials, Drilling-Patterns, Blasting, Timbering, Mucking, Tunnel Lining, Advances In Tunneling Methods, Safety Measures, Ventilation, Lighting and Drainage of Tunnels etc.]]> Mon, 19 Oct 2020 10:09:25 GMT /slideshow/module5ie-tunnelengineering/238912878 BASWESHWARJIRWANKAR1@slideshare.net(BASWESHWARJIRWANKAR1) MODULE-V INFRASTRUCTURE ENGINEERING BTCVC702 BASWESHWARJIRWANKAR1 This presentation provides you the conceptual knowledge as per DBATU, Lonere Last Year BTech Civil subject, Infrastructure Engg. Module-V Tunnel Engineering Shape and Size of Tunnel Shafts, Pilot Tunnels, Tunneling in Hard Rock, Tunneling in Soft Materials, Drilling-Patterns, Blasting, Timbering, Mucking, Tunnel Lining, Advances In Tunneling Methods, Safety Measures, Ventilation, Lighting and Drainage of Tunnels etc. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/module5ietunnelengineering-201019100925-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation provides you the conceptual knowledge as per DBATU, Lonere Last Year BTech Civil subject, Infrastructure Engg. Module-V Tunnel Engineering Shape and Size of Tunnel Shafts, Pilot Tunnels, Tunneling in Hard Rock, Tunneling in Soft Materials, Drilling-Patterns, Blasting, Timbering, Mucking, Tunnel Lining, Advances In Tunneling Methods, Safety Measures, Ventilation, Lighting and Drainage of Tunnels etc.

MODULE-V INFRASTRUCTURE ENGINEERING BTCVC702 from Dr. BASWESHWAR JIRWANKAR

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0 https://cdn.slidesharecdn.com/profile-photo-BASWESHWARJIRWANKAR1-48x48.jpg?cb=1733560901 Welcome to my �ݺ�ߣshare page, I have dedicated myself to providing you with the knowledge of the Civil Engineering Stream, with a focus on [ updated information-based content, basics of the stream, content as per DBATU, Lonere. ] I hope that all academic aspirants will be able to appreciate the reciprocating content by sharing your useful feedback and suggestions as much as I dedicatedly do. All the best...!!! Sincerely, Dr. Basweshwar S. Jirwankar rudra.mh37@gmail.com https://cdn.slidesharecdn.com/ss_thumbnails/modulefive-241118112943-b0026913-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/module-five-engineering-surveys-btcvc304/273399924 MODULE FIVE, ENGINEERI... https://cdn.slidesharecdn.com/ss_thumbnails/m4ieae23-24-241116055814-4a0eb66e-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/module-4-airport-engineering-infrastructure-engineering/273350800 MODULE 4 AIRPORT ENGIN... https://cdn.slidesharecdn.com/ss_thumbnails/m3iedhe-231004044530-a115e57f-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/m3iedhepdf/261735494 M3_IE_D&HE.pdf