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Except for a large peak at t = 0, the signal is mostly noise. A smaller vertical
scale (-0.5 to 0.5) shows the signal as follows:
Solution to specific second-order differential equations
In this section we present and solve specific types of ordinary differential
equations whose solutions are defined in terms of some classical functions,
e.g., Bessel’s functions, Hermite polynomials, etc. Examples are presented in
RPN mode.
The Cauchy or Euler equation
An equation of the form x
2
⋅
(d
2
y/dx
2
) + a
⋅
x
⋅
(dy/dx) + b
⋅
y = 0, where a and b
are real constants, is known as the Cauchy or Euler equation. A solution to
the Cauchy equation can be found by assuming that y(x) = x
n
.
Type the equation as: ‘x^2*d1d1y(x)+a*x*d1y(x)+b*y(x)=0’
`
Then, type and substitute the suggested solution: ‘y(x) = x^n’
`
@SUBST
The result is: ‘x^2*(n*(x^(n-1-1)*(n-1)))+a*x*(n*x^(n-1))+b*x^n =0, which
simplifies to ‘n*(n-1)*x^n+a*n*x^n+b*x^n = 0’. Dividing by x^n, results in
an auxiliary algebraic equation: ‘n*(n-1)+a*n+b = 0’, or.
0
)
1
(
2
=
+
⋅
−
+
b
n
a
n
.
•
If the equation has two different roots, say n
1
and n
2
, then the general
solution of this equation is y(x) = K
1
⋅
x
n
1
+ K
2
⋅
x
n
2
.
•
If b = (1-a)
2
/4, then the equation has a double root n
1
= n
2
= n =
(1-a)/2, and the solution turns out to be y(x) = (K
1
+ K
2
⋅
ln x)x
n
.
Содержание 49g+
Страница 1: ...hp 49g graphing calculator user s guide H Edition 4 HP part number F2228 90006 ...
Страница 197: ...Page 5 30 LIN LNCOLLECT POWEREXPAND SIMPLIFY ...
Страница 377: ...Page 11 55 Function KER Function MKISOM ...
Страница 457: ...Page 13 26 In the right hand side figure above we are using the line editor to see the series expansion in detail ...
Страница 775: ...Page 26 10 the location of the backup battery in the top compartment at the back of the calculator ...
Страница 838: ...Page L 5 ...