course on transportation engineering for transport engineers

25 days of intense training program learn from basic to advance of Transportation Engineers design for Transport Engineers structure

4.5
4.5/5

200 users

Accelerate design, optimization, and documentation of road network and bridge projects. Work with an intelligent model-based approach for surface and corridor modeling, drainage layout, and plans production.

India’s #1 Online Bootcamp

4.5
4.5/5

9/10 of our learners achieve their learning objectives after successful course completion*

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ONLINE BOOTCAMP

8,000
  • 8 month extension live high quality recording is available
  • Learner assistance and support
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CORPORATE TRAINING

Customized to your team's needs

  • Blended learning delivery model (self-paced eLearning and/or instructor-led options)
  • Flexible pricing options
  • Enterprise grade Learning Management System (LMS)
  • Learner assistance and support
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Transportation Enginnering

Eligibility

  • Civil engineering and diploma students
  • Civil engineering specialist.
  • Civil engineering design engineers.

Pre-requisites

Learners need to possess an undergraduate degree or a diploma

Transportation Enginnering Modules

1. Determinacy And Indeterminacy Of Structures

1. 1.1 Static Indeterminacy
2. 1.2 Static Indeterminacy Of Frames I
3. 1.3 Static Indeterminacy Of Frames II
4. 1.4 Static Indeterminacy Of Frames III
5. 1.5 Static Indeterminacy Of Beams And Trusses
6. 1.6 Stability And Instability
7. 1.7 Kinetic Indeterminacy
2. Slope Deflection Method

1. 2.1 Fundamentals
2. 2.2 Modified Slope Deflection Equation
3. 2.3 Continuous Beam
4. 2.4 Frames
5. 2.5 Symmetrical Structures
6. 2.6 Numericals – I
7. 2.7 Numericals – II
8. 2.8 Numericals – III
9. 2.9 Numericals – IV
3. Moment Distribution Method

1. 3.1 Introduction
2. 3.2 MDM For Beams
3. 3.3 MDM For Frames
4. 3.4 MDM For Symmetrical Structures
4. Truss Analysis

1. 4.1 Analysis Of Determinate Truss
2. 4.2 Deflection Of Truss Joint
3. 4.3 Analysis Of Indeterminate Truss
5. Influence Line

1. 5.1 Introduction
2. 5.2 Müller-Breslau’s Principle
3. 5.3 Moving Load
6. Matrix Method Of Analysis

1. 6.1 Flexibility Matrix Method
2. 6.2 Stiffness Matrix Method
7. Force Method Of Analysis

1. 7.1 Force Method Of Analysis
8. Arches & Cables

1. 8.1 Cables – Subjected to Concentrated Loads
2. 8.2 Cables- Subjected to Uniform Loads
3. 8.3 Arches- Introduction
4. 8.4 Arches: Numerical

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