Luokat: Kaikki - homogeneous - laplace

jonka Cameron Coombs 11 vuotta sitten

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Differential equations

Understanding how to solve differential equations is crucial in many fields of science and engineering. Differential equations can be categorized into first and second-order types, each requiring specific methods to solve.

Differential equations

Differential equations

place in standard form.... See example.

1(X)'' +/-#(X)'+/-#(X)=somethng

Highest order X has a 1 in font of it.

Also make sure that the variables are seperated you may need to use seperation of variable.

Matrix

For matrix and some systems use eigenvectors and eigenvalues to solve. If it can be put into a matrix format than use this.

Second Order

Non-homogeneous

For non-homogeneous problems us the follow methods.

Variation of parameters

found in section 4.5

Undermined coefficients

This method is found in section 4.4

Homoheneous
With complex numbers

Use complex charateristic roots method. found in section 4.3

With constant coefficients

Use real characteristic roots methos. found in section 4.2

First order

Can it be intergrsted directly.
No

Use the intergrating factor technique. see hyperlink for tuturial.

Intergrating factor

Now that you have your intergrating factor, multiply both sides by it, integrate and solve for Y.

Yes

Intergrate the left side and the right side to get into the form Y= F(x)

IVP/piecewise function/step function

For these types of problems use Laplace.