Metropolitan State University

Course Equivalents

# Course Equivalents for MATH 350 at Metropolitan State University in

While all courses listed as equivalents below are transferable, they are not necessarily equivalent in both directions. The courses below transfer TO the college or university shown above. To see how courses from your home college or university transfer to other participating colleges or universities, you can search Transferology.

If you are enrolling in the equivalent course in order to fulfill a program/major requirement, it is best to check with your academic advisor to ensure that the equivalent course will meet the requirements of your particular major.

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## Bemidji State University

 MATH 2490 - Differential Equations - 4 credits Ordinary differential equations including first order and second order linear equations, series solutions, Laplace transformations, existence and uniqueness theory, systems of linear and nonlinear equations, dynamical systems and applications. A graphing calculator is required. Prerequisite: MATH 2472. Ordinary differential equations including first order and second order linear equations, series solutions, Laplace transformations, existence and uniqueness theory, systems of linear and nonlinear equations, dynamical systems and applications. A graphing calculator is required. Prerequisite: MATH 2472. Section Availability

## Hibbing Community College

 MATH 2211 - Differential Equations with Introductory Linear Algebra - 5 credits Mathematical/Logical Reasoning (04)Critical Thinking (02) Differential Equations with Introductory Linear Algebra focuses on first and second-order differential equations, higher order differential equations, Laplace transforms, vectors, matrix algebra, eigenvectors and eigenvalues, systems of differential equations, numerical methods, series solutions and mathematical models. MNTC Goal Area(s): (2) Critical Thinking and (4) Math/Logiical Reasoning. Prerequisites: "C" or better in MATH2111: Calculus 2 or Equivalent. Differential Equations with Introductory Linear Algebra focuses on first and second-order differential equations, higher order differential equations, Laplace transforms, vectors, matrix algebra, eigenvectors and eigenvalues, systems of differential equations, numerical methods, series solutions and mathematical models. MNTC Goal Area(s): (2) Critical Thinking and (4) Math/Logiical Reasoning. Prerequisites: "C" or better in MATH2111: Calculus 2 or Equivalent. Section Availability

## Minneapolis Community and Technical College

 MATH 2210 - Linear Algebra and Differential Equations - 5 credits This course covers linear algebra, with an emphasis on eigenvalues; introduction to differential equations, including linear differential equations with constant coefficients, solved using eigenvalues; and series solutions and numerical methods for linear and nonlinear differential equations and systems. This course covers linear algebra, with an emphasis on eigenvalues; introduction to differential equations, including linear differential equations with constant coefficients, solved using eigenvalues; and series solutions and numerical methods for linear and nonlinear differential equations and systems. Section Availability

## Minnesota State University, Mankato

 MATH 321 - Ordinary Differential Equations - 4 credits This course presents the theory, computations, and applications of first and second order differential equations and two-dimensional systems. This course presents the theory, computations, and applications of first and second order differential equations and two-dimensional systems. Section Availability

## Normandale Community College

 MATH 2520 - Calculus 4: Differential Equations with Linear Algebra - 5 credits Mathematical/Logical Reasoning (04) Matrices and systems, vector spaces, subspaces, linear independence, basis, dimension, linear transformations, eigenvectors, first and second order differential equations, Euler's Method, phase plane analysis of linear and nonlinear systems, extensive modeling. Possible topics from numerical methods, Laplace Transforms, power series solutions, or partial differential equations. Applications include - but are not limited to - science, engineering, economics, and ecology. Matrices and systems, vector spaces, subspaces, linear independence, basis, dimension, linear transformations, eigenvectors, first and second order differential equations, Euler's Method, phase plane analysis of linear and nonlinear systems, extensive modeling. Possible topics from numerical methods, Laplace Transforms, power series solutions, or partial differential equations. Applications include - but are not limited to - science, engineering, economics, and ecology. Section Availability

## North Hennepin Community College

 MATH 2400 - Differential Equations - 4 credits Mathematical/Logical Reasoning (04) The content of this course covers first and second ordinary differential equations with applications, higher order linear equations, constant coefficients, differential operators, variation of parameters, power series methods, Laplace transforms, and solving systems of differential equations. The student will also be introduced to numerical methods for solving differential equations. The content of this course covers first and second ordinary differential equations with applications, higher order linear equations, constant coefficients, differential operators, variation of parameters, power series methods, Laplace transforms, and solving systems of differential equations. The student will also be introduced to numerical methods for solving differential equations. Section Availability

## Ridgewater College

 MATH 2330 - Linear Algebra and Differential Equations - 5 credits Mathematical/Logical Reasoning (04) Study of matrices and systems of equations, determinants, vector spaces and linear transformations. Solving differential equations involving the standard first and second order types plus higher order linear equations with constant coefficients, as well as an introduction to Laplace transforms. Prerequisites: A grade of C- or better in MATH 1220 or appropriate score on the math placement exam MnTC Goal: 4 Study of matrices and systems of equations, determinants, vector spaces and linear transformations. Solving differential equations involving the standard first and second order types plus higher order linear equations with constant coefficients, as well as an introduction to Laplace transforms. Prerequisites: A grade of C- or better in MATH 1220 or appropriate score on the math placement exam MnTC Goal: 4 Section Availability

## Saint Paul College

 MATH 2760 - Differential Equations and Linear Algebra - 4 credits Mathematical/Logical Reasoning (04) This course is an introduction to differential equations and linear algebra, which focuses on ordinary differential equations but students will be introduced to partial differential equations. Topics include the basic definition, terminology and ideas of ordinary differential equation, finding solutions of and working with applications of first and second order differential equations, existence and uniqueness of solutions, variation of parameters, undetermined coefficients, matrix formulation of linear systems, Laplace transforms, and an introduction to numerical and graphical methods of solutions. Additional topics include Gauss-Jordan reduction and system of Linear equations, matrices and coordinates relative to different bases, general linear spaces, orthogonality, determinants, eigenvalues, eigenvectors, and phase plane analysis of linear and nonlinear systems of ordinary differential equations. (Prerequisite(s): MATH 2750 Calculus 2 with a grade of "C" or better or appropriate assessment score) (MnTC: Goal 4) 4C/4/0/0 This course is an introduction to differential equations and linear algebra, which focuses on ordinary differential equations but students will be introduced to partial differential equations. Topics include the basic definition, terminology and ideas of ordinary differential equation, finding solutions of and working with applications of first and second order differential equations, existence and uniqueness of solutions, variation of parameters, undetermined coefficients, matrix formulation of linear systems, Laplace transforms, and an introduction to numerical and graphical methods of solutions. Additional topics include Gauss-Jordan reduction and system of Linear equations, matrices and coordinates relative to different bases, general linear spaces, orthogonality, determinants, eigenvalues, eigenvectors, and phase plane analysis of linear and nonlinear systems of ordinary differential equations. (Prerequisite(s): MATH 2750 Calculus 2 with a grade of "C" or better or appropriate assessment score) (MnTC: Goal 4) 4C/4/0/0 Section Availability

## St. Cloud State University

 MATH 327 - Differential Equations with Linear Algebra - 4 credits Matrices and matrix operations, Gaussian elimination, determinants, Euclidean n-space and subspaces, dependence, eigenvalues, eigenvectors, diagonalization. Separable and first-order linear equations, second-order linear equations having constant coefficients, applications, systems of linear ODE's with constant coefficients, nonhomogenous linear systems, Laplace transforms. Prereq.: 222. 4 Cr. F,S. Matrices and matrix operations, Gaussian elimination, determinants, Euclidean n-space and subspaces, dependence, eigenvalues, eigenvectors, diagonalization. Separable and first-order linear equations, second-order linear equations having constant coefficients, applications, systems of linear ODE's with constant coefficients, nonhomogenous linear systems, Laplace transforms. Prereq.: 222. 4 Cr. F,S. Section Availability

## Winona State University

 MATH 313 - Differential Equations - 3 credits Solution techniques for ordinary differential equations including boundary/initial value problems and systems of first-order equations. Topics include linear homogeneous and nonhomogeneous differential equations, the Laplace transform, and systems of differential equations. Prerequisite: MATH 213 and either MATH 242 OR concurrent enrollment in MATH 314. Solution techniques for ordinary differential equations including boundary/initial value problems and systems of first-order equations. Topics include linear homogeneous and nonhomogeneous differential equations, the Laplace transform, and systems of differential equations. Prerequisite: MATH 213 and either MATH 242 OR concurrent enrollment in MATH 314. Section Availability