Week |
Subject |
Related Preparation |
1) |
Errors, Big O Notation, Stability and Condition Number, Taylor’s Theorem. |
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2) |
The Solution of Nonlinear Equations in the form of f(x)=0: Bisection Method, Fixed Point Iteration. |
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3) |
Newton-Rapson Method, Secant Method. |
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4) |
The Solution of Linear System : Solving Triangular System, Gauss Elimination and Pivoting. |
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5) |
LU Factorization, Tridiagonal System, Vector and Matrix Norms |
|
6) |
Sensitivity of Linear Equations. Condition Number and Stability. |
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7) |
Iterative Methods for Linear Systems: Jacobi Method. |
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8) |
Gauss Seidel Method. Diagonally Dominant Matrix. Errors in Solving Linear Systems. |
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9) |
Eigenvalues and Eigenvectors: The Power Method. The Inverse Power Method. |
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10) |
System of Nonlinear Equations: Newton’s Method. |
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11) |
Interpolating and Polynomial Approximation: Lagrange interpolation polynomial, Newton Interpolation. |
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12) |
Piecewise Linear Interpolation, Cubic Spline. |
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13) |
Least Square Approximation: Curve Fitting. |
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14) |
Inconsistent System of Equations. Errors in Interpolation . |
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Program Outcomes |
Level of Contribution |
1) |
Having the theoretical and practical knowledge proficiency in the discipline of industrial product design |
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2) |
Applying professional knowledge to the fields of product, service and experience design development |
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3) |
Understanding, using, interpreting and evaluating the design concepts, knowledge and language |
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4) |
Knowing the research methods in the discipline of industrial product design, collecting information with these methods, interpreting and applying the collected knowledge |
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5) |
Identifying the problems of industrial product design, evaluating the conditions and requirements of problems, producing proposals of solutions to them |
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6) |
Developing the solutions with the consideration of social, cultural, environmental, economic and humanistic values; being sensitive to personal differences and ability levels |
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7) |
Having the ability of communicating the knowledge about design concepts and solutions through written, oral and visual methods |
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8) |
To identify and apply the relation among material, form giving, detailing, maintenance and manufacturing methods of design solutions |
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9) |
Using the computer aided information and communication technologies for the expression of industrial product design solutions and applications |
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10) |
Having the knowledge and methods in disciplines like management, engineering, psychology, ergonomics, visual communication which support the solutions of industrial product design; having the ability of searching, acquiring and using the knowledge that belong these disciplines when necessary. |
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11) |
Using a foreign language to command the jargon of industrial product design and communicate with the colleagues from different cultures |
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12) |
Following and evaluating the new topics and trends that industrial product design needs to integrate according to technological and scientific developments |
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