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- Let us suppose we wanted to form a differential equation from This is a differential equation of the second order. ...713 bytes (127 words) - 05:25, 3 October 2006
- 797 bytes (130 words) - 22:06, 11 July 2006
- ...the Method of Undetermined Coefficients encountered in normal differential equations, with some slight exceptions to the "rules" of guessing. Actually, there's ...789 bytes (123 words) - 05:32, 5 May 2007
- 1 KB (180 words) - 08:08, 12 August 2007
- ...ges in the Method of Undetermined Coefficients as compared to differential equations without linear algebra). ...1 KB (216 words) - 22:06, 11 July 2006
- As with the variation of parameters in the normal differential equations (a lot of similarities here!) we take a fundamental solution and by using a ...990 bytes (164 words) - 22:06, 11 July 2006
- From [[Differential Equations]] In the introduction we briefly discussed forming a differential equation from a function, specifically, ...859 bytes (121 words) - 08:31, 25 June 2006
- ...ade up of certain components, without which they would not be differential equations. ==Basic Parts of a Differential Equation== ...11 KB (1,727 words) - 11:31, 1 March 2008
- ...he diagonal the problem is a series of one-dimensional normal differential equations which can be solved for <math>\mathbf{Y}</math> and used to find out <math> ...1 KB (195 words) - 22:05, 11 July 2006
- ...ses a firm understanding of [[Differential Equations|ordinary differential equations]] and at least have a basic idea of what a [[Modern_Physics:Math:Partial_De ...east extracting information out of problems involving partial differential equations. The first few chapters are built to be especially simple to understand so ...8 KB (1,342 words) - 13:35, 22 October 2007
- 379 bytes (51 words) - 22:05, 11 July 2006
- ...unction is called heterogeneous. Now, in previous methods of differential equations, it turned out that '''X''' had an exponential of the transcendental number ...cause the exponential function appeared many times in simpler differential equations, we will guess that the solution for '''X''' is '''X''' = '''u''' ⋅ <m ...2 KB (298 words) - 01:16, 30 October 2006
- ...atrix, and other niceties; but when it is otherwise, and thus a non-linear differential equation, the best way to find a solution is by graphical means. By taking ...1 KB (165 words) - 22:06, 11 July 2006
- ..., I can make some graphs if you give me the equations. Just reply with the equations and I will post them. <small>—The preceding unsigned comment was added by [ [[Category:Differential Equations]] ...2 KB (271 words) - 07:34, 16 January 2007
- From [[Differential Equations]] == What are Differential Equations? == ...4 KB (716 words) - 05:15, 29 October 2007
- ==First Order Differential Equations== The simplest types of differential equations to solve are '''first order equations'''. These are equation where the highest derivative in the equation is the ...2 KB (208 words) - 06:47, 3 July 2006
- ; differential equation : An equation with one or more derivatives in it. <math>F(x,y,y', ; general solution : The solution to a differential equation in its most general form, constants included ...3 KB (489 words) - 08:42, 25 June 2006
- [[Category:Differential Equations]] ...2 KB (356 words) - 04:04, 5 December 2007
- [[Category:Differential Equations]] ...2 KB (401 words) - 08:52, 25 June 2006
- :From [[Differential_Equations|Differential Equations]] :::[[Differential_Equations:FirstOrder|First Order Differential Equations]] ...3 KB (559 words) - 08:30, 25 June 2006
Page text matches
- From [[Differential Equations]] In the introduction we briefly discussed forming a differential equation from a function, specifically, ...859 bytes (121 words) - 08:31, 25 June 2006
- ==First Order Differential Equations== The simplest types of differential equations to solve are '''first order equations'''. These are equation where the highest derivative in the equation is the ...2 KB (208 words) - 06:47, 3 July 2006
- Solve the following differential equations via substitution methods. For some, you will have to come up with your own [[Category:Differential Equations]] ...389 bytes (68 words) - 08:52, 25 June 2006
- ...hematics/OCR/FP3/More About Differential Equations|More About Differential Equations]] {{stage short|00%}} ===Differential Equations=== ...1 KB (212 words) - 17:13, 14 July 2007
- ...pplications_of_Second_Order_DEQs|Applications of Second-Order Differential Equations]] ...ations. In this chapter, I will cover the use of second-order differential equations to describe the motion of a mass at the end of a spring. ...2 KB (249 words) - 08:30, 25 June 2006
- == Differential equation model for incompressible fluids == ...interested in the flow velocity \(u\) that is defined by two differential equations ...860 bytes (120 words) - 18:39, 20 February 2007
- :From [[Differential_Equations|Differential Equations]] :::[[Differential_Equations:FirstOrder|First Order Differential Equations]] ...3 KB (559 words) - 08:30, 25 June 2006
- ; differential equation : An equation with one or more derivatives in it. <math>F(x,y,y', ; general solution : The solution to a differential equation in its most general form, constants included ...3 KB (489 words) - 08:42, 25 June 2006
- ...ges in the Method of Undetermined Coefficients as compared to differential equations without linear algebra). ...1 KB (216 words) - 22:06, 11 July 2006
- ...s to these equations. But what happens if we have two or more differential equations that depend on each other? For example, consider the case where ...tial equations is said to be ''coupled''. Systems of ordinary differential equations such as these are what we will look into in this section. ...3 KB (521 words) - 22:28, 17 June 2006
- Let us suppose we wanted to form a differential equation from This is a differential equation of the second order. ...713 bytes (127 words) - 05:25, 3 October 2006
- [[Category:Differential Equations]] ...106 bytes (17 words) - 08:31, 25 June 2006
- From [[Differential Equations]] == What are Differential Equations? == ...4 KB (716 words) - 05:15, 29 October 2007
- :From [[Differential_Equations|Differential Equations]] :::[[Differential_Equations:FirstOrder|First Order Differential Equations]] ...1 KB (218 words) - 22:38, 31 July 2007
- [[Category:Differential Equations]] ...286 bytes (43 words) - 08:43, 25 June 2006
- ...he boundary of E (To avoid confusion, we reserve <math>\partial</math> for differential stuff.) == 4. Differential forms == ...3 KB (398 words) - 22:43, 10 October 2007
- == Numerical methods for the solution of first order differential equations == == Second order differential equations == ...3 KB (432 words) - 17:10, 30 November 2007
- ...ations. In fact, it is fair to say that the solutions of most differential equations were originally obtained by ''guessing''! There are systematic ways of solving simple differential equations, such as this one, but for now we will use our knowledge of the physical pr ...2 KB (350 words) - 02:38, 2 November 2007
- One place homogenous equations of constant coefficients are used is in mechanical vibrations. Lets imagin Remember that <math>v=x'</math> and <math>a=x''</math>. This gives us a differential equation of ...1 KB (200 words) - 17:57, 29 March 2007
- ...ade up of certain components, without which they would not be differential equations. ==Basic Parts of a Differential Equation== ...11 KB (1,727 words) - 11:31, 1 March 2008