Diff EQ

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Differential Equations and Linear Algebra

Szerző: Caleb Guanzon

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Szerző: Wendy Luk

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Szerző: vivek kumar

Diff EQ

Systems of diff EQs

eigen values

[a-lamda b c d-lamda]

tTake determinant, solve for lamda, plug in eigenvalue for general solution. If IVP plus in those values and solve for constants

2nd order

Subtopic

particular (LHS)

form based on function: Ae^t, At^2+Bt+C, Acosbt+Asinbt take derivative twice, plug back into RHS to solve for particular

variation of parameters

undetermined coefficients

homogeneous (RHS)

ar^2+br+c=0

repeated: y(t) = c1e^(r1t)+c2te^(r2t)

imaginary: y(t) = e^(at)(c1cosbt+c2sinbt)

real: y(h) = c1e^(r1t)+c2e^(r2t)

Nth order

LaPlace Transform

solve for Y(s), use tables, take inverse etc.

does it exist? (check for domain issues)

is it unique? (check derivative for domain issues)

1st order

integrating factor method

dy/dt + p(t)y = f(t) u = e^∫p(t)dt

Linear nonhomogenous

Find homogeneous and particular solutions

Linear + homogenous?

superposition principle

seperation of variables

(t)dt=(y)dy

directly integrate

isoclines, equilibrium, stability, concavity

application based (model)

competition model

(dR/dt) = R(ar-brR-crS)

tank problem

x'=(r_in)(c_in)-(r_out)(c_out)

Newton's law of cooling

(dT/dt) = k(M-T)

growth/decay

Q = Qo*e^kt