ApL796: Difference between revisions
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== ApL796 : Advanced Solid Mechanics == | == ApL796 : Advanced Solid Mechanics == | ||
Large deformation kinematics, lagrangian stress and strain tensors, balance laws in lagrangian framework, nonlinear constitutive modeling, nonlinear theory of beams and buckling, wave propagation, theory of plasticity, solution of elasticity problems – contact modeling, multiscale modeling etc. ApV779 Systems Engineering 1 Credit (1-0-0) Systems Engineering Process, NPD (New Product Development), Complex Engineered Product, Devel-opment Project & Development Program, Establishing Top Level Requirements and Expectations, Verifi-cation of Defined Requirements and their Traceability, Metadata Set of Requirements, ConOps (Concept of Operations), Technical Performance), Measures (TPM) – MOE (Measure of Effectiveness) and MOP (Measure of Performance), Development of Design (Concept Exploration, Concept Design, Preliminary Design, Functional Design & Detailed Design), Product Breakdown Structure (PBS), Work Breakdown Structure (WBS), Interface definition Document (IDD), Testing Evaluation Master Plan (TEMP), System Engineering Master Plan (SEMP), Risk Management, Design management, Acceptance Management, Role of Systems Engineering, Soft skills of a Systems Engineering, Case Studies of Design Disasters. | Large deformation kinematics, lagrangian stress and strain tensors, balance laws in lagrangian framework, nonlinear constitutive modeling, nonlinear theory of beams and buckling, wave propagation, theory of plasticity, solution of elasticity problems – contact modeling, multiscale modeling etc. [[ApV779]] Systems Engineering 1 Credit (1-0-0) Systems Engineering Process, NPD (New Product Development), Complex Engineered Product, Devel-opment Project & Development Program, Establishing Top Level Requirements and Expectations, Verifi-cation of Defined Requirements and their Traceability, Metadata Set of Requirements, ConOps (Concept of Operations), Technical Performance), Measures (TPM) – MOE (Measure of Effectiveness) and MOP (Measure of Performance), Development of Design (Concept Exploration, Concept Design, Preliminary Design, Functional Design & Detailed Design), Product Breakdown Structure (PBS), Work Breakdown Structure (WBS), Interface definition Document (IDD), Testing Evaluation Master Plan (TEMP), System Engineering Master Plan (SEMP), Risk Management, Design management, Acceptance Management, Role of Systems Engineering, Soft skills of a Systems Engineering, Case Studies of Design Disasters. | ||
Latest revision as of 16:22, 14 April 2026
| ApL796 | |
|---|---|
| Advanced Solid Mechanics | |
| Credits | 3 |
| Structure | 3-0-0 |
| Pre-requisites | |
| Overlaps | |
ApL796 : Advanced Solid Mechanics
Large deformation kinematics, lagrangian stress and strain tensors, balance laws in lagrangian framework, nonlinear constitutive modeling, nonlinear theory of beams and buckling, wave propagation, theory of plasticity, solution of elasticity problems – contact modeling, multiscale modeling etc. ApV779 Systems Engineering 1 Credit (1-0-0) Systems Engineering Process, NPD (New Product Development), Complex Engineered Product, Devel-opment Project & Development Program, Establishing Top Level Requirements and Expectations, Verifi-cation of Defined Requirements and their Traceability, Metadata Set of Requirements, ConOps (Concept of Operations), Technical Performance), Measures (TPM) – MOE (Measure of Effectiveness) and MOP (Measure of Performance), Development of Design (Concept Exploration, Concept Design, Preliminary Design, Functional Design & Detailed Design), Product Breakdown Structure (PBS), Work Breakdown Structure (WBS), Interface definition Document (IDD), Testing Evaluation Master Plan (TEMP), System Engineering Master Plan (SEMP), Risk Management, Design management, Acceptance Management, Role of Systems Engineering, Soft skills of a Systems Engineering, Case Studies of Design Disasters.