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- https://math.libretexts.org/Courses/Red_Rocks_Community_College/MAT_2561_Differential_Equations_with_Engineering_Applications/02%3A_First_Order_Equations/2.07%3A_Integrating_FactorsThis section deals with equations that are not exact, but can made exact by multiplying them by a function known called integrating factor.
- https://math.libretexts.org/Courses/SUNY_Geneseo/Math_222_Calculus_2/03%3A_Introduction_to_Differential_Equations/3.05%3A_First-order_Linear_EquationsAny first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may ...Any first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may or may not include an initial value. Applications of first-order linear differential equations include determining motion of a rising or falling object with air resistance and finding current in an electrical circuit.
- https://math.libretexts.org/Courses/Reedley_College/Differential_Equations_and_Linear_Algebra_(Zook)/08%3A_First_Order_Equations/8.06%3A_Integrating_FactorsThis section deals with equations that are not exact, but can made exact by multiplying them by a function known called integrating factor.
- https://math.libretexts.org/Courses/Mission_College/MAT_3B_Calculus_II_(Kravets)/06%3A_Introduction_to_Differential_Equations/6.05%3A_First-order_Linear_EquationsAny first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may ...Any first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may or may not include an initial value. Applications of first-order linear differential equations include determining motion of a rising or falling object with air resistance and finding current in an electrical circuit.
- https://math.libretexts.org/Courses/City_College_of_San_Francisco/CCSF_Calculus/11%3A_Introduction_to_Differential_Equations/11.06%3A_First-order_Linear_EquationsAny first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may ...Any first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may or may not include an initial value. Applications of first-order linear differential equations include determining motion of a rising or falling object with air resistance and finding current in an electrical circuit.
- https://math.libretexts.org/Bookshelves/Calculus/Calculus_by_David_Guichard_(Improved)/17%3A_Differential_Equations/17.03%3A_First_Order_Linear_EquationsAs you might guess, a first order linear differential equation has the form y' + p(t)y = f(t). Not only is this closely related in form to the first order homogeneous linear equation, we can use what ...As you might guess, a first order linear differential equation has the form y' + p(t)y = f(t). Not only is this closely related in form to the first order homogeneous linear equation, we can use what we know about solving homogeneous equations to solve the general linear equation.
- https://math.libretexts.org/Courses/Irvine_Valley_College/Calculus_2_OER/04%3A_Introduction_to_Differential_Equations/4.04%3A_First-order_Linear_EquationsAny first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may ...Any first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may or may not include an initial value. Applications of first-order linear differential equations include determining motion of a rising or falling object with air resistance and finding current in an electrical circuit.
- https://math.libretexts.org/Courses/Coastline_College/Math_C185%3A_Calculus_II_(Tran)/05%3A_Introduction_to_Differential_Equations/5.06%3A_First-order_Linear_EquationsAny first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may ...Any first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may or may not include an initial value. Applications of first-order linear differential equations include determining motion of a rising or falling object with air resistance and finding current in an electrical circuit.
- https://math.libretexts.org/Courses/Monroe_Community_College/MTH_225_Differential_Equations/02%3A_First_Order_Equations/2.07%3A_Using_Multiple_Integrating_FactorsThis section deals with equations that are not exact, but can made exact by multiplying them by a function known called integrating factor.
- https://math.libretexts.org/Bookshelves/Calculus/Calculus_(OpenStax)/08%3A_Introduction_to_Differential_Equations/8.05%3A_First-order_Linear_EquationsAny first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may ...Any first-order linear differential equation can be written in the form y′+p(x)y=q(x). We can use a five-step problem-solving strategy for solving a first-order linear differential equation that may or may not include an initial value. Applications of first-order linear differential equations include determining motion of a rising or falling object with air resistance and finding current in an electrical circuit.
- https://math.libretexts.org/Courses/Community_College_of_Denver/MAT_2562_Differential_Equations_with_Linear_Algebra/02%3A_First_Order_Equations/2.06%3A_Integrating_FactorsThis section deals with equations that are not exact, but can made exact by multiplying them by a function known called integrating factor.
