June 2025

Engineering Drawing | Chapter 6 | Developments and Intersections  and Intersections  | ME158

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Engineering Drawing: Developments and Intersections | ME158 Engineering Drawing: Developments and Intersections Topic Information Topic: Developments and Intersections (7 hours) Course Code: ME158 – Engineering Drawing Description: Complete study material covering Developments and Intersections techniques and practices Credit: Important Notes Developments and Intersections 7 Hours | 7 Marks Syllabus: Developments and Intersections (7 hours) 6. […]

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Engineering Drawing | Chapter 5 | Multi view (orthographic) projections | ME158

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Engineering Drawing: Multi-view (Orthographic) Projections | ME158 Engineering Drawing: Multi-view (Orthographic) Projections Topic Information Topic: Multi-view (Orthographic) Projections (8 hours) Course Code: ME158 – Engineering Drawing Description: Complete study material covering Orthographic Projections techniques and practices Credit: Important Notes Orthographic Projections 8 Hours | 8 Marks Syllabus: Multi-view (Orthographic) Projections (8 hours) 5. Multi-view (orthographic)

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Engineering Drawing | Chapter 4 | Basic Descriptive Geometry Notes | ME158

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Engineering Drawing: Basic Descriptive Geometry | ME158 Engineering Drawing: Basic Descriptive Geometry Topic Information Topic: Basic Descriptive Geometry (4 hours) Course Code: ME158 – Engineering Drawing Description: Complete study material covering Orthographic Projection and Projection of Lines Credit: Important Notes Basic Descriptive Geometry 4 Hours | 4 Marks Syllabus: Basic Descriptive Geometry (4 hours) 4.

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Engineering Drawing | Chapter 3 | Geometrical Construction

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Engineering Drawing: Geometrical Construction | ME158 Engineering Drawing: Geometrical Construction Topic Information Topic: Geometrical Construction (2 hours) Course Code: ME158 – Engineering Drawing Description: Complete study material covering Geometrical Construction techniques and practices Credit: Important Notes Geometrical Construction 2 Hours | 2 Marks Syllabus: Geometrical Construction (2 hours) 3. Geometrical Construction (2 hours) 3.1 Plane

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Engineering Drawing | Chapter 1 &2 | Lettering & Dimensioning

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Engineering Drawing: Instrumental Drawing & Dimensioning | ME158 Engineering Drawing: Instrumental Drawing & Dimensioning Topic Information Topic: Instrumental Drawing & Dimensioning (2 hours) Course Code: ME158 – Engineering Drawing Description: Complete study material covering Instrumental Drawing techniques and Dimensioning practices Credit: Important Notes Instrumental Drawing & Dimensioning ( 1 + 1 ) Hours | (

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NUMERICAL METHODS | Lab 18 |Solution of partial differential equations using finite difference approach: Laplace equation using Gauss-Seidal iteration

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Laplace Equation using Gauss-Seidel Iteration | Numerical Methods Lab Lab 7: Laplace Equation using Gauss-Seidel Iteration Lab 7: Solution of Laplace Equation using Gauss-Seidel Iteration Experiment Information Experiment: Solution of Laplace Equation using Gauss-Seidel Iteration method Course Code: Numerical Methods Description: Complete lab report covering theory, algorithm, Python implementation and analysis of finite difference method

NUMERICAL METHODS | Lab 18 |Solution of partial differential equations using finite difference approach: Laplace equation using Gauss-Seidal iteration Read More »

NUMERICAL METHODS | Lab 17 |Solution of Ordinary Differential Equations: Solution of two-point boundary value problem using Shooting method

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Shooting Method for Boundary Value Problems | Numerical Methods Lab Lab 6: Shooting Method for Boundary Value Problems Lab 6: Solution of Two-Point Boundary Value Problems using Shooting Method Experiment Information Experiment: Solution of two-point boundary value problems using Shooting method Course Code: Numerical Methods Description: Complete lab report covering theory, algorithm, Python implementation and

NUMERICAL METHODS | Lab 17 |Solution of Ordinary Differential Equations: Solution of two-point boundary value problem using Shooting method Read More »

NUMERICAL METHODS | Lab 16 |Solution of Ordinary Differential Equations: Runge-Kutta fourth order method for system of ODEs / 2nd order ODE

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Runge-Kutta 4th Order for Systems of ODEs | Numerical Methods Lab Lab 6: Runge-Kutta 4th Order Method for Systems of ODEs Lab 6: Solution of Systems of ODEs using Runge-Kutta 4th Order Method Experiment Information Experiment: Solution of Systems of ODEs using Runge-Kutta 4th Order method Course Code: Numerical Methods Description: Complete lab report covering

NUMERICAL METHODS | Lab 16 |Solution of Ordinary Differential Equations: Runge-Kutta fourth order method for system of ODEs / 2nd order ODE Read More »

NUMERICAL METHODS | Lab 15 |Solution of Ordinary Differential Equations:Runge-Kutta fourth order method for first order ODE

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Runge-Kutta 4th Order Method for ODEs | Numerical Methods Lab Lab 6: Runge-Kutta 4th Order Method for Ordinary Differential Equations Lab 6: Solution of ODEs using Runge-Kutta 4th Order Method Experiment Information Experiment: Solution of Ordinary Differential Equations using Runge-Kutta fourth order method Course Code: Numerical Methods Description: Complete lab report covering theory, algorithm, Python

NUMERICAL METHODS | Lab 15 |Solution of Ordinary Differential Equations:Runge-Kutta fourth order method for first order ODE Read More »

NUMERICAL METHODS | Lab 14 | Numerical Integration ( Gauss-Legendre integration )

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Gauss-Legendre Integration | Numerical Methods Lab Lab 5: Gauss-Legendre Numerical Integration Lab 5: Gauss-Legendre Numerical Integration Method Experiment Information Experiment: Gauss-Legendre Numerical Integration Course Code: Numerical Methods (SH202) Description: Complete lab report covering theory, algorithm, Python implementation and analysis of Gauss-Legendre integration method Prepared by: Important Notes Team Complete Lab Report PDF 1. Theory of

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