I am working with a function p(t) that is function of the time variable t. I don't have the explicit expression of p as function of time and I would like to apply Laplace transform to an expression that includes the function p. I started by defining all the parameters as symbolic in MATLAB

syms m ms k t p f;

When I execute those lines, I get this error.

enter image description here

I think the problem comes from the fact that I'm trying to differentiate the function p with respect to t but I'm not sure. Is there a way to get the Laplace transform of the function f?

  • What error message do you get? Commented Jan 28, 2017 at 12:33
  • @Cebri Here is the error message I get Error using sym/subsindex (line 769) Invalid indexing or function definition. When defining a function, ensure that the arguments are symbolic variables and the body of the function is a SYM expression. When indexing, the input must be numeric, logical, or ':'. Error in sym/subsref (line 814) R_tilde = builtin('subsref',L_tilde,Idx);
    – chsafouane
    Commented Jan 28, 2017 at 12:50
  • @Adriaan Done.Thanks!
    – chsafouane
    Commented Jan 28, 2017 at 13:41
  • @chsafouane in text please. Images are a) more difficult to read and b) we can't copy text from there, which is especially a pain when it concerns code. Otherwise: I think you are correct in your assumption that p(t) is the problem, as MATLAB thinks you are indexing the (unknown) function p with the indices in t. I hope someone with experience on implicit functions can help you here.
    – Adriaan
    Commented Jan 28, 2017 at 13:55
  • @Adriaan Thanks Adriaan and I'm so sorry for the inconvenience. I'm a bit new to the website and I don't always know how to post things in the right format. I'll make sure that wouldn't happen next time^-^
    – chsafouane
    Commented Jan 28, 2017 at 14:00

1 Answer 1


The problem resides in the definition of the parameters. In order for this code to work, a little change is necessary when it comes to defining the function "p"

syms m ms k t p(t) f;

It's worth noting that the variable "t" has to be defined before p. This code defines "p" as "symfun" wich is the type given to a function when is defined using symbolic toolbox.

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