7

exponential equation

I'm trying to solve this exponential equation like this:

my ($l,$r);

for (1 .. 100) -> $x {
    $l = $x * e ** $x;
    $r = 5 * (e ** $x - 1);
    say $x if $l == $r;
    }

But it doesn't work. How to solve it in a straightforward and comprehensive fashion?

  • 1
    Differentiate this equation and then solve the quadratic equation. I am not sure, if Raku can help you directly with it. Would you expect Raku to analyze this algebraic expression or give you a numerical solution? Are you looking for existing libraries or want to program something yourself? Only for this specific equation? – Sebastian Apr 5 at 22:31
  • 3
    Try Math::Symbolic. Looks like .new and .isolate might do the trick. – raiph Apr 6 at 0:10
  • @Sebastian I was wondering if there's a neat and concise solution to it. – Lars Malmsteen Apr 6 at 0:20
  • 1
    I think currently there is no general solution to any exponential equation in Raku. Math::Symbolic has logarithms marked as NYI (not yet implemented). If you were asking not just for interest, but needing the solution to this or a group of similar equations, one could do the first step by hand, and let Raku do the rest, that would be possible. Then you should state, what could change, e.g. which coefficients are variable. If you just need to solve this specific equation, then you could also do it outside Raku (e.g. Wolfram Alpha). – Sebastian Apr 6 at 8:00
  • 2
    Do you seek an algebraic or a numeric solution? – Sebastian Apr 6 at 10:17
4

Sorry for the double-answering.
But here is a totally different much simpler approach solved in Raku.
(It probably can be formulated more elegant.)

#!/usr/bin/env raku

sub solver ($equ, $acc, $lower0, $upper0) {
    my Real $lower = $lower0;
    my Real $upper = $upper0;
    my Real $middle = ($lower + $upper) / 2;

    # zero must be in between
    sign($equ($lower)) != sign($equ($upper)) || die 'Bad interval!';

    for ^$acc {                                          # accuracy steps
        if sign($equ($lower)) != sign($equ($middle))
            { $upper = $middle }
        else
            { $lower = $middle }
        $middle = ($upper + $lower) / 2;
    }
    return $middle;
}

my $equ = -> $x { $x * e ** $x  -  5 * (e ** $x - 1) };  # left side - right side
my $acc = 64;                                            # 64 bit accuracy
my Real $lower = 1;                                      # start search here
my Real $upper = 100;                                    # end search here

my $solution = solver $equ, $acc, $lower, $upper;

say 'result is ', $solution;
say 'Inserted in equation calculates to ', $equ($solution), ' (hopefully nearly zero)'
| improve this answer | |
2

For Perl 5 there is Math::GSL::Roots - Find roots of arbitrary 1-D functions

https://metacpan.org/pod/Math::GSL::Roots

Raku has support for using Perl 5 code or can access the GSL C library directly, can't it?

$fspec = sub {
       my ( $x ) = shift;

       # here the function has to be inserted in the format 
       # return leftside - rightside;

       return  ($x + $x**2) - 4;


     };

gsl_root_fsolver_alloc($T); # where T is the solver algorithm, see link for the 6 type constants, e.g. $$gsl_root_fsolver_brent
gsl_root_fsolver_set( $s, $fspec, $x_lower, $x_upper ); # [$x_lower; $x_upper] is search interval
gsl_root_fsolver_iterate($s);
gsl_root_fsolver_iterate($s);
gsl_root_fsolver_iterate($s);
gsl_root_fsolver_iterate($s);
gsl_root_fsolver_iterate($s);
my $result = gsl_root_fsolver_root($s);
gsl_root_fsolver_free (s);

There are enhanced algorithms available (gsl_root_fdfsolver_*), if the derivative of a function is available.

See also https://www.gnu.org/software/gsl/doc/html/roots.html#examples for general usage

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