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- https://math.libretexts.org/Courses/Florida_SouthWestern_State_College/MGF_1131%3A_Mathematics_in_Context__(FSW)/07%3A_Graph_TheoryThis chapter discusses fundamental topics in graph theory, such as graph basics, Euler and Hamiltonian circuits, and the Traveling Salesman Problem. It touches on tree structures and includes a visual...This chapter discusses fundamental topics in graph theory, such as graph basics, Euler and Hamiltonian circuits, and the Traveling Salesman Problem. It touches on tree structures and includes a visual representation of a linear program with two variables and six inequalities, demonstrating feasible solutions and a cost function.
- https://math.libretexts.org/Bookshelves/Combinatorics_and_Discrete_Mathematics/Discrete_Mathematics_for_Computer_Science_(Fitch)/03%3A_Functions/3.02%3A_Boolean_AlgebraThis page explores the connection between arithmetic operations and Boolean algebra, detailing terminology and definitions relevant to Boolean functions. It highlights methods for representing and sim...This page explores the connection between arithmetic operations and Boolean algebra, detailing terminology and definitions relevant to Boolean functions. It highlights methods for representing and simplifying these functions through algebraic techniques. The text includes practical exercises for evaluating and designing Boolean functions and their circuit representations, aiming to demonstrate the optimization of logical expressions for various applications.
- https://math.libretexts.org/Courses/De_Anza_College/Introductory_Differential_Equations/03%3A_Higher_order_linear_ODEs/3.08%3A_Mechanical_Vibrations/3.8E%3A_Exercises_for_Section_3.8This page presents a collection of exercises that delve into mechanics, circuits, and oscillatory systems. It covers topics such as mass-spring systems, damping conditions, spring constants, and RLC c...This page presents a collection of exercises that delve into mechanics, circuits, and oscillatory systems. It covers topics such as mass-spring systems, damping conditions, spring constants, and RLC circuits. Students are tasked with solving differential equations, exploring relationships between mass, frequency, and damping, and analyzing system behaviors. The exercises focus on critical damping and overall circuit and oscillation dynamics based on specified parameters.
