Laplace’s equation A classical equation of mathematics is Laplace’s equation, which arises in both theory and applications. It governs ideal fluid flow, electrostatic potentials, and the steady-state distribution of heat in a conducting medium. In two dimensions, Laplace’s equation is ∂ 2 u ∂ x 2 + ∂ 2 u ∂ y 2 = 0. Show that the following functions are harmonic ; that is, they satisfy Laplace’s equation. 83 . u ( x , y ) = tan − 1 ( y x − 1 ) − tan − 1 ( y x + 1 )
Laplace’s equation A classical equation of mathematics is Laplace’s equation, which arises in both theory and applications. It governs ideal fluid flow, electrostatic potentials, and the steady-state distribution of heat in a conducting medium. In two dimensions, Laplace’s equation is ∂ 2 u ∂ x 2 + ∂ 2 u ∂ y 2 = 0. Show that the following functions are harmonic ; that is, they satisfy Laplace’s equation. 83 . u ( x , y ) = tan − 1 ( y x − 1 ) − tan − 1 ( y x + 1 )
Solution Summary: The author explains that the function u(x,y)=mathrmtan-1 (y
Laplace’s equationA classical equation of mathematics is Laplace’s equation, which arises in both theory and applications. It governs ideal fluid flow, electrostatic potentials, and the steady-state distribution of heat in a conducting medium. In two dimensions, Laplace’s equation is
∂
2
u
∂
x
2
+
∂
2
u
∂
y
2
=
0.
Show that the following functions are harmonic; that is, they satisfy Laplace’s equation.
83.
u
(
x
,
y
)
=
tan
−
1
(
y
x
−
1
)
−
tan
−
1
(
y
x
+
1
)
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