MATH 310 Ordinary Differential Equations*

Definitions and terminology including ODE, PDE, order, linear, nonlinear, initial values, solution, solution interval, solution curve, general solution, and particular solution Existence theorem for unique solutions Analytical geometry including direction fields and phase portraits Solution methods for first-order differential equations including separation of variables, linear methods, exact, homogeneous, and numerical methods Applications of first-order differential equations including modeling in physics, chemistry, economics, and population biology Solution methods for second-order and higher differential equations including reduction of order, homogeneous linear equations with constant coefficients, auxiliary equations with complex roots, undetermined coefficients, variation of parameters, systems of equations, and the superposition principle Existence theorems for higher-order differential equations Terminology for higher-order differential equations including linear dependence/independence, Wronskian, fundamental solution set, general solution, and particular solutions Applications of second-order differential equations including spring/mass problems and electrical circuits Series solutions for differential equations including both ordinary points and singular points Laplace transforms and their application to solving differential equations, transform and translation theorems including derivatives , exponential factors (First Translation), step functions (Second), monomial factors (Derivatives of Transforms), and periodic functions Existence theorems for Laplace transforms