HP 50g Graphing Calculator User Manual

Page 543

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Page 16-66

Here we are trying to obtain the value of y(2) given y(0) = 1. With the

Soln:

Final

field highlighted, press

@SOLVE. You can check that a solution takes about

6 seconds, while in the previous first-order example the solution was almost
instantaneous. Press

$ to cancel the calculation.

This is an example of a stiff ordinary differential equation. A stiff ODE is one
whose general solution contains components that vary at widely different rates
under the same increment in the independent variable. In this particular case,
the general solution, y(t) = 1+ t +C

⋅e

100t

, contains the components ‘t’ and

‘C

⋅e

100t

’, which vary at very different rates, except for the cases C=0 or C

≈0

(e.g., for C = 1, t =0.1, C

⋅e

100t

=22026).

The calculator’s ODE numerical solver allows for the solution of stiff ODEs by
selecting the option

_Stiff

in the

SOLVE Y’(T) = F(T,Y)

screen. With this

option selected you need to provide the values of

∂f/∂y and ∂f/∂t. For the case

under consideration

∂f/∂y = -100 and ∂f/∂t = 100.

Enter those values in the corresponding fields of the

SOLVE Y’(T) = F(T,Y)

screen:

When done, move the cursor to the

Soln:

Final

field and press

@SOLVE. This

time, the solution in produced in about 1 second. Press

@EDIT to see the

solution: 2.9999999999, i.e., 3.0.

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