Created by Sam Wilson
almost 5 years ago
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Copied by Sam Wilson
almost 5 years ago
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Question | Answer |
Cauchy Problem | ODE given in explicit form with initial conditions |
Homogeneous function of degree k | A function such that h(vx, vy) = v^k h(x,y) Always reduce to separable |
Bernoulli Equation | y' + p(x)y = g(x)y^a |
Solution of Bernoulli Equation | Let u = y^(1-a) Differentiate and substitute into equation |
Exact ODE | An ODE in the form M(x,y)dx + N(x,y)dy = 0 if there exists a function u such that M(x,y)dx + N(x,y)dy is the total differential of u |
Criterion for Exactness | dM/dy = dN/dx Mixed partial of u must be equal to satisfy continuity |
Solution of Exact ODEs | u(x,y) = \int{M}dx + k(y) where k(y) serves as the constant of integration then du/dy = N and solve for k(y) |
Integrating factor | For a non-exact equation Pdx + Qdy = 0 A function F such that FPdx + FQdy = 0 is exact |
Finding Integrating factors | X(w) = (P_y - Q_x)/(Qw_x - Pw_y) Find an w such that X(w) is a function of only x or y F = exp(\int X(w) dw) |
Equilibrium state | The point at which the main derivative is 0 |
Relaxation equation | A first order ODE in which the terms "counteract" each other such that at some point equilibrium is reached |
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