# Why does the following expression result in error?

Disclaimer. I am familiar with Mathematica but not Matlab, so I apologize if this is a neophyte question.

I am getting a strange error on Matlab on the the following at using Matlab's solve command:

``````solve(0.2 = (1.4+1/2)^((1.4+1)/(2*(1.4-1)))*(M)/((1+(1.4-1)/2*M^2))^((1.4+1)/(2*(1.4-1))), M)
``````

The error is:

``````Error: The expression to the left of the equals sign is not a valid target for an assignment.
``````

The equivalent Solve command in Mathematica (using the same expression) works perfectly, so I don't think my expression itself is invalid. Moreover, I get the same error when I try to use the examples on the doc site: http://www.mathworks.com/help/symbolic/mupad_ref/solve.html

Is it a configuration problem or is there something about the syntax of the command I am misinterpreting?

Edit: I also tried with == instead of =, and I get a different error:

``````Undefined function or variable 'M'.
``````

Also, as a note, I am running Matlab R2011b (7.13.0.564) 64-bit (glnxa64).

Edit2: I tried the first suggested solution with syms:

``````>> syms M
>> solve(0.2 == (1.4+1/2)^((1.4+1)/(2*(1.4-1)))*(M)/((1+(1.4-1)/2*M^2))^((1.4+1)/(2*(1.4-1))), M)
Error using char
Conversion to char from logical is not possible.

Error in solve>getEqns (line 245)
vc = char(v);

Error in solve (line 141)
[eqns,vars,options] = getEqns(varargin{:});
``````

Edit3: I have been able to reproduce this issue with even the simplest of equations

``````>> syms x
>> solve(x^2 -4 == 0, x)
Error using char
Conversion to char from logical is not possible.

Error in solve>getEqns (line 245)
vc = char(v);

Error in solve (line 141)
[eqns,vars,options] = getEqns(varargin{:});
``````

Moreover, I tried the solution suggested here too: MATLAB examples are failing

Matlab's fsolve command assumes the expression is set to zero. If solving numerically, you would not do:

``````x=solve(2=x+1,x)
``````

but rather:

``````x=fsolve(@(x) x+1-2,0)
``````

Where the equation is already set to zero, @(x) is what you are solving for, and 0 is the initial guess. Which you must include.

Using solve symbolically, it looks like this:

``````syms x
val=solve(x+1-2)
``````

``````syms M
solve(-0.2+ (1.4+1/2)^((1.4+1)/(2*(1.4-1)))*(M)/((1+(1.4-1)/2*M^2))^((1.4+1)/(2*(1.4-1))))

ans =
4.7161724968093348297842999805458
0.029173662296926424763929809009225
- 3.8716404782846254923900841980317 - 3.4984412176176158766571497649425*i
1.4989673987314948651159693032542 + 5.5784387926679222829321168661041*i
1.4989673987314948651159693032542 - 5.5784387926679222829321168661041*i
- 3.8716404782846254923900841980317 + 3.4984412176176158766571497649425*i
``````
• It seems that using symms and then not having any form of the == sign did what I required. – merlin2011 Jan 29 '13 at 18:51
• glad to hear it! – zachd1_618 Jan 29 '13 at 18:52

you should define M as `sym`, and use `==` instead of `=`

``````syms M
solve(0.2 == (1.4+1/2)^((1.4+1)/(2*(1.4-1)))*(M)/((1+(1.4-1)/2*M^2))^((1.4+1)/(2*(1.4-1))), M)

ans =
4.7161724968093348297842999805458
0.029173662296926424763929809009225
- 3.8716404782846254923900841980317 - 3.4984412176176158766571497649425*i
1.4989673987314948651159693032542 + 5.5784387926679222829321168661041*i
1.4989673987314948651159693032542 - 5.5784387926679222829321168661041*i
- 3.8716404782846254923900841980317 + 3.4984412176176158766571497649425*i
``````
• Please see the my edit. – merlin2011 Jan 29 '13 at 18:04
• when I try the code i wrote in my answer it works. – bla Jan 29 '13 at 18:05
• What version of Matlab are you running? – merlin2011 Jan 29 '13 at 18:10
• I can confirm that this works on R2012A – Pursuit Jan 29 '13 at 18:30