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1. Differential equations: Differential equations serve as mathematical models of physical processes. This course is intended to be an introduction to ordinary differential equations and their solutions. [100%] 2024-01-07 [Differential equations] [Mathematics courses]...
2. Differential equations: Differential equations serve as mathematical models of physical processes. This course is intended to be an introduction to ordinary differential equations and their solutions. [100%] 2024-01-26 [Differential equations] [Mathematics courses]...
3. Differential Equations: A differential equation is an equation where a given function and an order of its derivative are in some way added or multiplied together in the same equation. The following categories should help in learning more about different types of ... [100%] 2024-01-26 [Differential equations]
4. Differential Equations: A differential equation is an equation where a given function and an order of its derivative are in some way added or multiplied together in the same equation. The following categories should help in learning more about different types of ... [100%] 2023-12-29 [Differential equations]
5. Differential equation: In mathematics, a differential equation or DE is an equation relating a function and its derivatives, the idea being that how a quantity will change is related in some way to its current value. Many of the fundamental laws of ... [93%] 2023-06-15
6. Differential Equation: Differential Equation, in mathematics, a relation between one or more functions and their differential coefficients. The subject is treated here in two parts: (1) an elementary introduction dealing with the more commonly recognized types of differential equations which can be ... [93%] 2022-09-02
7. Differential equation: In mathematics, a differential equation is an equation that relates a function to one or more of its derivatives. Differential equations are especially applicable when the tools of algebra, which are ideally suited for static systems, are not enough. [93%] 2023-02-22 [Calculus] [Differential Equations]...
8. Differential equation: In mathematics, a differential equation is an equation that relates one or more unknown functions and their derivatives. In applications, the functions generally represent physical quantities, the derivatives represent their rates of change, and the differential equation defines a relationship ... (Type of functional equation (mathematics)) [93%] 2023-11-06 [Differential equations]
9. Differential equation: In mathematics, a differential equation is an equation that relates one or more unknown functions and their derivatives. In applications, the functions generally represent physical quantities, the derivatives represent their rates of change, and the differential equation defines a relationship ... (Type of functional equation (mathematics)) [93%] 2024-01-12 [Differential equations]
10. Quaternionic Differential Equations: Generalized field equations hold for all basic fields. Generalized field equations fit best in a quaternionic setting. [81%] 2023-12-20 [Differential equations]
11. Partial differential equations: Partial differential equations (PDEs) are the most common method by which we model physical problems in engineering. Finite element methods are one of many ways of solving PDEs. [81%] 2023-12-29 [Finite element analysis] [Computational solid mechanics]...
12. Differential-algebraic equations: A differential-algebraic equation (DAE) is an equation involving an unknown function and its derivatives. A (first order) DAE in its most general form is given by \[\tag{1} F(t,x,x')=0,\quad t_0\leq t\leq t_f ... [81%] 2021-12-24 [Dynamical Systems] [Numerical Analysis]...
13. Delay-differential equations: Delay differential equations differ from ordinary differential equations in that the derivative at any time depends on the solution (and in the case of neutral equations on the derivative) at prior times. The simplest constant delay equations have the form ... [81%] 2021-12-24 [Dynamical Systems] [Numerical Analysis]...
14. Ordinary Differential Equations: Educational level: this is a tertiary (university) resource. Subject classification: this is a mathematics resource. Completion status: this resource is just getting off the ground. [81%] 2024-02-23 [Ordinary differential equations]
15. Adjoint differential equation: to an ordinary linear differential equation $ l (y) = 0 $ The ordinary linear differential equation $ l ^ {*} ( \xi ) = 0 $, where $$ \tag{1 } l (y) \equiv a _ {0} (t) y ^ {(n)} + \dots + a _ {n} (t) y , $$ $$ y ^ {( \nu ) } = \frac{d ^ \nu ... (Mathematics) [76%] 2023-10-25
16. Integro-differential equation: In mathematics, an integro-differential equation is an equation that involves both integrals and derivatives of a function. The general first-order, linear (only with respect to the term involving derivative) integro-differential equation is of the form As is ... (Equation involving both integrals and derivatives of a function) [76%] 2023-10-25 [Differential equations]
17. Homogeneous differential equation: A differential equation can be homogeneous in either of two respects. A first order differential equation is said to be homogeneous if it may be written where f and g are homogeneous functions of the same degree of x and ... (Type of ordinary differential equation) [76%] 2023-10-25 [Differential equations] [Ordinary differential equations]...
18. Loewner differential equation: In mathematics, the Loewner differential equation, or Loewner equation, is an ordinary differential equation discovered by Charles Loewner in 1923 in complex analysis and geometric function theory. Originally introduced for studying slit mappings (conformal mappings of the open disk onto ... [76%] 2023-09-01 [Complex analysis]
19. Complex differential equation: A complex differential equation is a differential equation whose solutions are functions of a complex variable. Constructing integrals involves choice of what path to take, which means singularities and branch points of the equation need to be studied. [76%] 2023-10-10 [Complex analysis] [Differential equations]...
20. Thiele differential equation: Consider an $n$ year term life insurance, with sum insured $S$ and level premium $P$ per time unit, issued at time $0$ to an $x$ years old person. Denote by $\mu_y$ the force of mortality at age $y$ and by ... (Mathematics) [76%] 2023-10-25