I have a Mathematica expression that contains a single square root, schematically

expr = a / (b + Sqrt[c]);

where a,b,c are large expressions. I would like to extract the expression under the sqrt, for instance by matching to a pattern, something like

Match[expr,Sqrt[x_]] // should return c

Is there an easy way to do this?


3 Answers 3


Theoretically, this should work correctly:

extractSqrt = Cases[ToBoxes@#, SqrtBox@x_ :> ToExpression@x, Infinity] &;


If you are willing to change the assignment to expr, you can do this:

expr = Hold[a / (b + Sqrt[c])];

Cases[expr, HoldPattern @ Sqrt[x_] :> x, Infinity]

The Hold in the assignment statement prevents Mathematica from applying any simplifications to the expression. In this case, Sqrt[c] gets "simplified" into Power[c,Rational[1,2]].

The HoldPattern is essential in the Cases expression to prevent the same simplification from happening to the pattern being matched.


I await a few examples, but in the meantime, try:

Cases[expr, x_^(1/2 | -1/2) :> x, Infinity]

The standard internal form for Sqrt(x) is Power[x, 1/2].

  • @Sjoerd I imagine in fails in a variety of cases. :-/
    – Mr.Wizard
    Commented Apr 15, 2011 at 23:41
  • @Sjoerd I made a change to catch more cases.
    – Mr.Wizard
    Commented Apr 15, 2011 at 23:47
  • @Sjoerd, please see my other answer. I don't have time to test it, but I think it is the solution. Please leave a comment if there is an obvious failure.
    – Mr.Wizard
    Commented Apr 15, 2011 at 23:57
  • 1
    @Mr.Wizard Well, of course there's the trivial case of a=0... %^) Not necessary to think of a/(b + Hold[Sqrt[c]]) either, is it? (just kidding). Other than that, it looks like you hammered it. Commented Apr 16, 2011 at 0:45
  • 1
    @yoda In the original pattern there was no negative exponent and a/(0+Sqrt[c]) is coded as Times[a,Power[c,Rational[-1,2]]]. Your 2nd example fails because Infinity means the levels from 1 to infinity whereas c is at level 0. Use {0, Infinity} instead. In b+c, b and c are at level 1, because they are in Plus[b,c]. Hence it works in this case. Commented Apr 16, 2011 at 1:03

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