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  • :[[MA366_Lab|Laboratory for MA366: "Ordinary Differential Equations']]
    2 KB (209 words) - 12:07, 9 September 2022
  • ...08asan)|LTI systems described by differential equations(CT) and difference equations(DT)]]
    7 KB (921 words) - 05:08, 21 October 2011
  • ...(Analytic Theory of Heat), (1822), discussing it in terms of differential equations.
    3 KB (390 words) - 11:10, 11 December 2008
  • :[[MA366_Lab|Laboratory for MA366: "Ordinary Differential Equations']] **[[2012 Fall MA 26200 YILDIRIM YOLCU|MA266:"Ordinary Differential Equations," Prof. Yolcu]]
    13 KB (1,570 words) - 12:53, 7 August 2018
  • ...7_ECE301Fall2008mboutin|Lecture 17]]: FTs and the f response, differential equations
    5 KB (720 words) - 05:10, 16 September 2013
  • == Breakdown of Maxwells Equations == Differential and integral forms of these given below
    4 KB (505 words) - 08:57, 31 July 2009
  • *[[MA266|MA 266]]: "Ordinary Differential Equations"
    4 KB (474 words) - 06:08, 4 November 2013
  • ...circuits that would otherwise require us to write high-order differential equations.
    2 KB (414 words) - 11:36, 1 September 2008
  • ...proved in one of several ways, using calculus (derivatives), differential equations, or the Taylor series, which is used here.
    2 KB (362 words) - 06:05, 11 July 2012
  • ...mbers and for engineers, they make it easier to solve complex differential equations. Usually complex numbers are of the form <math>a+bi</math>,where a is the r
    1 KB (251 words) - 12:43, 4 September 2008
  • === LTI systems defined by Differential/difference equations ===
    2 KB (243 words) - 07:04, 21 November 2008
  • ==System's Characterized by Linear Constant-Coefficient Differential Equations==
    3 KB (465 words) - 13:38, 24 October 2008
  • ...This form is obtained through differential equations in CT and difference equations in DT.
    2 KB (255 words) - 15:12, 24 October 2008
  • == System Characterized By Linear Constant-Coefficient Differential Equations == Consider a LTI system that is chracterized by the differential equation
    2 KB (335 words) - 17:08, 24 October 2008
  • Laplace Transforms provide a very convenient method of solving differential equations,
    1 KB (226 words) - 11:26, 24 November 2008
  • :(b) an ability to determine the impulse response of a differential or difference equation. [1,2;a] #Causal LTI Systems Described by Differential and Difference Equations
    7 KB (1,017 words) - 09:05, 11 December 2008
  • A parametric model is a set of related mathematical equations in which alternative scenarios are defined by changing the assumed values o ==[[Partial Differential Equations (PDE)_Old Kiwi|Partial Differential Equations (PDE)]]==
    31 KB (4,832 words) - 17:13, 22 October 2010
  • | ? || FO-3 || ? || Dynamics 2 : Time Varying Fields and Maxwells Equations ...|| VC-3 || ? || Modeling, Analysis, and Design of Single-Stage Amplifiers/Differential
    2 KB (279 words) - 22:00, 9 March 2008
  • ...as '''exact as possible'''' in your description. Number your figures and equations and specify those in your ChangeLog entry. Also give a hyperlink to the pag ...nt_Old Kiwi]], [[KNN-K Nearest Neighbor_Old Kiwi]], [[Partial Differential Equations (PDE)_Old Kiwi]], [[Prior_Old Kiwi]], [[Pruning_Old Kiwi]], [[Quadratic Pro
    10 KB (1,418 words) - 11:21, 28 April 2008
  • =Partial Differential Equations (Continued)= This gives us two 1-D heat equations
    10 KB (1,728 words) - 07:55, 17 January 2013
  • =Review of iterative solutions to partial differential equations.=
    710 B (117 words) - 11:19, 22 October 2010
  • ##[[LTI systems described by differential equations(CT) and difference equation(DT)_Old Kiwi]]
    4 KB (531 words) - 10:32, 25 July 2008
  • * Differential/difference equations for DT/CT LTI systems computed via Fourier transform * Differential/difference equations to describe LTI systems
    5 KB (643 words) - 10:55, 6 August 2009
  • * LTI systems described by [[differential/difference equations]]
    1 KB (152 words) - 03:06, 23 July 2009
  • * [[Differential equations using CTFT]] * [[Difference equations using DTFT]]
    1 KB (118 words) - 00:11, 30 July 2009
  • [[Differential Equations Using CTFT - Jamis Martin]] [[Differential Equations Using CTFT - Mohd Faiz Mohd Asri]]
    113 B (16 words) - 19:56, 29 July 2009
  • [[Image:Differential Equations Using CTFT.doc]]
    47 B (6 words) - 19:57, 29 July 2009
  • = MA523: Introduction To Partial Differential Equations=
    280 B (36 words) - 05:18, 21 August 2009
  • = MA615: Numerical Methods For Partial Differential Equations I= ...introduce finite element method for solving elliptic partial differential equations. Useful for applied math students..--[[User:Huang94|Huang94]]
    454 B (60 words) - 07:50, 21 August 2009
  • = MA642: Methods Of Linear And Nonlinear Partial Differential Equations I=
    298 B (40 words) - 07:54, 21 August 2009
  • ...the rate of salt leaving the tank is relatively obvious. Consequently the differential equation modeling the situation makes sense intuitively. But the explicit f ...the physical reasoning one would have to perform if access to differential equations was not available. At the end of the pathway is a second anchor point, the
    27 KB (4,384 words) - 16:47, 26 October 2009
  • [[Category:differential equations]] = [[Math|MA]]366: Ordinary Differential Equations =
    570 B (72 words) - 09:10, 12 January 2015
  • == Homogeneous (first order) Equations == ...to the fact that the independent variable does not appear by itself in the differential equation. The terminology is confusing, but I'm still bound to adhere to it
    6 KB (1,067 words) - 17:07, 26 October 2009
  • == Separable Equations == If the differential equation in question can be written as
    3 KB (632 words) - 09:56, 5 October 2009
  • == Linear Equations and Integrating Factors == Suppose that, through some sort of algebraic manipulation, you can get your differential equation into the following form:
    3 KB (613 words) - 14:22, 11 October 2009
  • == Exact Equations == Suppose, firstly, that your differential equation can be written this way:
    3 KB (669 words) - 09:38, 26 October 2009
  • == Homogeneous Equations with Constant Coefficients == ...ifferential equation can be written as a function of y. For instance, the differential equation
    3 KB (527 words) - 17:10, 26 October 2009
  • ==Homogeneous Equations with Constant Coefficients: Complex Roots== According to the formula given in the previous section, solutions to the differential equation will be of the form
    1 KB (254 words) - 12:30, 26 October 2009
  • ...nd topology seem to have less applications. Discrete math and differential equations can be used in a lot of situations. Discrete math seems like the branch of
    1 KB (205 words) - 18:24, 19 February 2010
  • ...ntinue to be an active area of mathematical research. Solving differential equations, as you will see in this course, proves to be an endeavor requiring a varie The differential equations you will study in this course are broken up into different families accordi
    1 KB (189 words) - 08:44, 29 December 2009
  • =MA266: Ordinary Differential Equations =
    374 B (46 words) - 09:37, 13 August 2010
  • ...tions. That way, when you get to higher order and systems of differential equations, the transition will be a lot smoother. [[User:Jhunsber|Josh Hunsberger]]
    648 B (102 words) - 03:38, 17 February 2010
  • ...valuable tools in both linear algebra and solving systems of differential equations. In linear algebra Eigen Vectors can be used to find the diagonalized form
    3 KB (472 words) - 10:11, 23 April 2010
  • ...orm, bilateral Laplace Transform. Discrete-time linear systems: difference equations, Discrete-Time Fourier Transform, bilateral z-Transform. Sampling, quantiza <br/>ii. an ability to determine the the impulse response of a differential or difference equation.
    3 KB (394 words) - 06:08, 4 May 2010
  • | [[ODEs MA265F10Walther|Systems of Differential Equations]]
    7 KB (1,024 words) - 09:42, 3 November 2011
  • ...processing withPDEs ECE438F10|Image Processing Using Partial Differential Equations]]
    9 KB (1,221 words) - 10:00, 22 December 2014
  • Problem 18 on page 146 Do I have the time rate of change equations correct: ...48 gpm and in T2 you have an outflow of 48 gpm. So I included them in the equations as follows:
    9 KB (1,580 words) - 12:08, 22 September 2010
  • Re: 4.4 Problem 7: First you get the matrix that represents the differential equation: [[0 -2],[8 0]]. Solve the determinant for det(A - Lambda*I) = 0 ...advice as to how this problem should be approached? It isn't a system of equations, so how do we get the eigenvalues/vectors?
    8 KB (1,396 words) - 09:38, 28 September 2010
  • ...onse of this system has low-pass characteristics. We then discretized this differential equation by approximating each derivative using a standard numerical scheme ...ving_differential_equations_iteratively_Old_Kiwi|How to solve differential equations iteratively]]
    2 KB (260 words) - 11:42, 22 October 2010
  • A parametric model is a set of related mathematical equations in which alternative scenarios are defined by changing the assumed values o ==[[Partial Differential Equations (PDE)_Old Kiwi|Partial Differential Equations (PDE)]]==
    31 KB (4,787 words) - 17:21, 22 October 2010

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