3: Introduction to programming and logic

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Page ID: 110816

Julio Terán
North Carolina State University

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3.1: Thinking Algorithmically
This page emphasizes algorithmic thinking as essential for problem-solving in engineering and programming. It explains algorithms' everyday relevance and the necessity for clear, precise instructions to avoid bugs. Examples, such as preparing for an 8 AM class and choosing clothing based on weather, illustrate the need for explicit decision-making ("if statements") and repetitive tasks ("for loops").
3.2: Relational and Logical Operators
This page discusses relational and logical operators in MATLAB, highlighting their critical role in decision-making and boolean evaluations. It covers operator precedence and encourages hands-on practice to enhance understanding. The text specifically emphasizes the AND and OR operators in condition evaluations, using examples for clarity, and also mentions the NOT operator.
3.3: Documentation and such
This page emphasizes the importance of documentation in programming, which includes manuals, quick guides, and inline comments. Effective comments clarify complex logic while avoiding redundancy. Good coding practices also contribute to documentation. Collaborative documentation is vital in group projects, and using flowcharts or pseudocode helps outline procedures for better clarity.
3.4: Programming in any language
This page provides a comprehensive overview of programming fundamentals, focusing on problem-solving using languages like Octave, Python, and Fortran. Key topics include variables, data types, operators, and the distinction between functions and subroutines. It also covers control statements like loops and conditionals, contrasting scripts with programming, and discusses different programming languages' features.
3.5: Mathematical Models
This page highlights the significance of selecting appropriate mathematical models in Excel for data analysis, particularly trendlines. It underscores the careful evaluation of model types like linear, power, and exponential models, using Hooke's Law as an example. Additionally, it explains calculating spring constants with Excel, emphasizing measurement precision and practical applications such as atmospheric pressure changes.

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