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I won't lie, I have the following questions in my maths homework but I have no idea how to solve it and I wondered if you could help me here! My teacher has taught us, what seems to be the basics of surds now, but it no seems quite apparent that he hasn't taught us everything - still, he wants to test us seeing as though we are doing a maths GCSE is November; so I get the impression that with the knowledge we already have, it would be possible to work the question out eventually. But anyway, the question is as follows:

Given that $135 = 3^3 \cdot 5$, simply the expression - Give your answer in surd form

$$\frac{\sqrt{135}}{\sqrt{7}-\sqrt{12}}$$

Any help would be greatly appreciated, although I straight answer isn't really that helpful to anyone as I really need to know how you got the answer - so any explainations would be brilliant!

Thanks in advance


Everyone,

Thank you very much for all the help you have provided (or attempted to provide :) )! I am so reluctant and somewhat afraid to announce it, but it turns out that there was an error in the question. When I went back to maths, my maths teacher admitted that even he struggled with the question because it was not the question it was supposed to be, and he said "the board that produce these example exam questions must have made a typo...", as it is supposed to be ${\sqrt{75}}$ not ${\sqrt{7}}$! Suddenly the question is considerably more easy to solve....

So, once again, much appreciation for everyone who has posted on this question, and apologies for wasting people's time!

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    Just a comment: I am a professional research mathematician, and I don't know what "Give your answer in surd form" means. (I am vaguely aware that "quadratic surd" is old-fashioned terminology for something like $\sqrt{x}$...) Probably *someone* here will know what this means, but some clarification certainly couldn't hurt.2011-09-25
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    Anyway, the given expression is a degree $4$ algebraic number, so it is not possible to express it as $a+b\sqrt{c}$ with $a,b,c$ rational numbers. So "surd form" must be a more general expression than that...2011-09-25
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    @PeteL.Clark I accept your comment, but I am only echoing what the question says. I do hope that some here does fully understand my question, but it does sound like the question is talking about a "quadratic surd" from what you are saying. If the expression is a degree 4 algebraic number though, I think it I will have to leave it and be honest with my teacher, seeing as though I can't recall ever touching on such a thing!2011-09-25
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    Just to be certain: is it $\dfrac{\sqrt{135}}{\sqrt7}-\sqrt{12}$, as you wrote it, or is it $\dfrac{\sqrt{135}}{\sqrt7-\sqrt{12}}$?2011-09-25
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    Probably what is meant by "surd form" is some linear combination of radicals with rational coefficients. So you need only rationalize the denominator. Further, based on the given factorization, you may be expected to pull square factors out of radicands. You may wish to double-check the statement of the problem for errors, since it appears too simple as stated.2011-09-25
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    @BrianM.Scott Apologies, I should have used brackets. It is in fact the second one you wrote...2011-09-25
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    The new version of the question makes it much more clear what is intended: very likely you should multiply numerator and denominator by $\sqrt{7} + \sqrt{12}$ and simplify.2011-09-25
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    @Pete: Thanks for that "hint", but for me, this doesn't really help unfortunately. Maybe you can provide a full "answer" explaining how to work the question out etc... (please)2011-09-25

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