Solve Symbolic Equation
Find analytic solutions of symbolic equations in Live Editor
Description
The Solve Symbolic Equation task enables you to interactively find analytic solutions of symbolic equations. The task automatically generates MATLAB® code for your live script. For more information about Live Editor tasks, see Add Interactive Tasks to a Live Script.
Using this task, you can:
Find analytic solutions of symbolic equations, which include a single equation and a system of algebraic equations.
Specify the solver options to find solutions.
Generate the code used to solve equations.
Open the Task
To add the Solve Symbolic Equation task to a live script in the MATLAB Editor:
On the Live Editor tab, select Task > Solve Symbolic Equation.
In a code block in your script, type a relevant keyword, such as
solve,symbolic, orequation. SelectSolve Symbolic Equationfrom the suggested command completions.
Examples
Related Examples
Parameters
Return real solutions — Return only real solutions
off (default) | on
Select this check box to return solutions for which every subexpression of the equation represents a real number. This option assumes all parameters of the equation represent real numbers.
Return one solution — Return one solution
off (default) | on
Select this check box to return a single solution (principal value). If an equation or a system of equations does not have any solution, the solver returns an empty symbolic object.
Return conditions — Return more general solution and its constraints
off (default) | on
Select this check box to return the more general solution and the analytic
constraints under which the solution holds. This option returns a structure with the
fields parameters and conditions that contain the
parameters in the solution and the conditions under which they hold,
respectively.
Expand all roots — Expand solutions in terms of square roots
off (default) | on
Select this check box to express the root function in terms of
square roots in the solutions. The results can be lengthy or less accurate for
floating-point approximations.
Ignore analytic constraints — Option to ignore analytic constraints
off (default) | on
Select this check box to apply purely algebraic simplifications, such as
log(a) + log(b) = log(a*b) with the assumption that
a and b are real positive numbers. Setting
Ignore analytic constraints to on can give you
simpler solutions, which could lead to results not generally valid. In other words, this
option applies mathematical identities that are convenient for most engineering
workflow, but do not always hold for all values of variables. In some cases, it also
enables the Solve Symbolic Equation task to solve
equations and systems that cannot be solved otherwise. For details, see Algorithms.
Ignore properties — Option to ignore assumptions on variables to solve for
off (default) | on
Select this check box to ignore assumptions on the variables to solve for. This option may include solutions that are inconsistent with assumptions on the variables to solve for.
Algorithms
When you use Ignore analytic constraints, the solver applies these
rules to the expressions on both sides of an equation.
log(a) + log(b) = log(a·b) for all values of a and b. In particular, the following equality is valid for all values of a, b, and c :
(a·b)c = ac·bc.
log(ab) = b·log(a) for all values of a and b. In particular, the following equality is valid for all values of a, b, and c :
(ab)c = ab·c.
If f and g are standard mathematical functions and f(g(x)) = x for all small positive numbers, f(g(x)) = x is assumed to be valid for all complex values x. In particular:
log(ex) = x
asin(sin(x)) = x, acos(cos(x)) = x, atan(tan(x)) = x
asinh(sinh(x)) = x, acosh(cosh(x)) = x, atanh(tanh(x)) = x
Wk(x·ex) = x for all branch indices k of the Lambert W function.
The solver can multiply both sides of an equation by any expression except
0.The solutions of polynomial equations must be complete.