Testing for Linear Independence In Exercises 95-98, (a) verify that each solution satisfies the differential equation, (b) test the set of solutions for linear independence, and (c) if the set is linearly independent, then write the general solution of the differential equation. Differential Equation Solutions y ″ + 6 y ′ + 9 y = 0 { e − 3 x , x e − 3 x }
Testing for Linear Independence In Exercises 95-98, (a) verify that each solution satisfies the differential equation, (b) test the set of solutions for linear independence, and (c) if the set is linearly independent, then write the general solution of the differential equation. Differential Equation Solutions y ″ + 6 y ′ + 9 y = 0 { e − 3 x , x e − 3 x }
Solution Summary: The author explains that each solution satisfies the given differential equation.
Testing for Linear Independence In Exercises 95-98, (a) verify that each solution satisfies the differential equation, (b) test the set of solutions for linear independence, and (c) if the set is linearly independent, then write the general solution of the differential equation.
Differential EquationSolutions
y
″
+
6
y
′
+
9
y
=
0
{
e
−
3
x
,
x
e
−
3
x
}
With integration, one of the major concepts of calculus. Differentiation is the derivative or rate of change of a function with respect to the independent variable.
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