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Exact Differential Equations Solving an Exact DE Making a DE Exact Conclusion
MATH312
Section 2.4: Exact Differential Equations
Prof. Jonathan Duncan
Walla Walla University
Spring Quarter, 2008
Exact Differential Equations Solving an Exact DE Making a DE Exact Conclusion
Outline
1 Exact Differential Equations
2 Solving an Exact DE
3 Making a DE Exact
4 Conclusion
Exact Differential Equations Solving an Exact DE Making a DE Exact Conclusion
A Motivating Example
Our tools so far allow us to solve first-order differential equations
which are separable and/or linear.
Example
Is the following differential equation separable or linear?
(tanx −sinx siny)dx +(cosx cosy)dy = 0
After rewriting as shown, what do you notice?
dy = sinx siny −tanx
dx cosx cosy
The equation is not separable.
The equation is not linear.
Weneed a new solution method for this DE!
Exact Differential Equations Solving an Exact DE Making a DE Exact Conclusion
Working Backwards
Wedevelop our method using Calculus notation.
Differentials
Recall that if f (x,y) has continuous first partials on some region of the
xy-plane, then with z = f (x,y) the differential is:
dz = ∂f dx + ∂f dy
∂x ∂y
Why is this of use? Recall our motivating example.
Example
Now, to solve
(tanx −sinx siny)dx +(cosx cosy)dy = 0
we find an f(x,y) for which ∂f = (tanx −sinx siny) and
∂x
∂f = (cosx cosy), and set f (x,y) = c for any constant c so that dz = 0.
∂y
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