Expanding $frac{a}{a+b}$ into two terms











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I'm unsure how I arrived at this assumption but I assumed :



$$
frac{a}{a+b} = frac{a}{a} + frac{a}{b}
$$



testing with values $a = 3$ and $b = 4$ this is not true as



$$
frac{3}{3+4} neq frac{3}{3} + frac{3}{4}
$$



Can $frac{a}{a+b}$ be expanded so that $a$ exclusively is contained in its own term and $b$ is contained in its own term.










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  • 1




    Well, if you assume false statements, you're going to run into more false statements..
    – DaveNine
    Nov 23 at 11:59










  • For future reference, for similar problems, one hint is to think about when the expression is defined. In order for two expressions to be the same, their domains must be the same. In this case it means that the cases where the denominator is zero, have to be the same for both sides. I at least find this hint quite useful.
    – Matti P.
    Nov 23 at 12:04















up vote
0
down vote

favorite












I'm unsure how I arrived at this assumption but I assumed :



$$
frac{a}{a+b} = frac{a}{a} + frac{a}{b}
$$



testing with values $a = 3$ and $b = 4$ this is not true as



$$
frac{3}{3+4} neq frac{3}{3} + frac{3}{4}
$$



Can $frac{a}{a+b}$ be expanded so that $a$ exclusively is contained in its own term and $b$ is contained in its own term.










share|cite|improve this question




















  • 1




    Well, if you assume false statements, you're going to run into more false statements..
    – DaveNine
    Nov 23 at 11:59










  • For future reference, for similar problems, one hint is to think about when the expression is defined. In order for two expressions to be the same, their domains must be the same. In this case it means that the cases where the denominator is zero, have to be the same for both sides. I at least find this hint quite useful.
    – Matti P.
    Nov 23 at 12:04













up vote
0
down vote

favorite









up vote
0
down vote

favorite











I'm unsure how I arrived at this assumption but I assumed :



$$
frac{a}{a+b} = frac{a}{a} + frac{a}{b}
$$



testing with values $a = 3$ and $b = 4$ this is not true as



$$
frac{3}{3+4} neq frac{3}{3} + frac{3}{4}
$$



Can $frac{a}{a+b}$ be expanded so that $a$ exclusively is contained in its own term and $b$ is contained in its own term.










share|cite|improve this question















I'm unsure how I arrived at this assumption but I assumed :



$$
frac{a}{a+b} = frac{a}{a} + frac{a}{b}
$$



testing with values $a = 3$ and $b = 4$ this is not true as



$$
frac{3}{3+4} neq frac{3}{3} + frac{3}{4}
$$



Can $frac{a}{a+b}$ be expanded so that $a$ exclusively is contained in its own term and $b$ is contained in its own term.







algebra-precalculus fractions






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edited Nov 23 at 12:00









GNUSupporter 8964民主女神 地下教會

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asked Nov 23 at 11:56









blue-sky

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1,00011222








  • 1




    Well, if you assume false statements, you're going to run into more false statements..
    – DaveNine
    Nov 23 at 11:59










  • For future reference, for similar problems, one hint is to think about when the expression is defined. In order for two expressions to be the same, their domains must be the same. In this case it means that the cases where the denominator is zero, have to be the same for both sides. I at least find this hint quite useful.
    – Matti P.
    Nov 23 at 12:04














  • 1




    Well, if you assume false statements, you're going to run into more false statements..
    – DaveNine
    Nov 23 at 11:59










  • For future reference, for similar problems, one hint is to think about when the expression is defined. In order for two expressions to be the same, their domains must be the same. In this case it means that the cases where the denominator is zero, have to be the same for both sides. I at least find this hint quite useful.
    – Matti P.
    Nov 23 at 12:04








1




1




Well, if you assume false statements, you're going to run into more false statements..
– DaveNine
Nov 23 at 11:59




Well, if you assume false statements, you're going to run into more false statements..
– DaveNine
Nov 23 at 11:59












For future reference, for similar problems, one hint is to think about when the expression is defined. In order for two expressions to be the same, their domains must be the same. In this case it means that the cases where the denominator is zero, have to be the same for both sides. I at least find this hint quite useful.
– Matti P.
Nov 23 at 12:04




For future reference, for similar problems, one hint is to think about when the expression is defined. In order for two expressions to be the same, their domains must be the same. In this case it means that the cases where the denominator is zero, have to be the same for both sides. I at least find this hint quite useful.
– Matti P.
Nov 23 at 12:04










1 Answer
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Your assumption, as you note, is not true at all. In particular, if you add those two fractions together and simplify a little, you get $frac{a + b}{b}$. No such decomposition is possible.



In particular, you can never hope to express $frac{a}{a+b}$ (or any multiple thereof as a sum of something with an $a$ in the denominator and something with a $b$ in the denominator, because $a+b$ is not a factor of $ab$ in general, but $frac{c}{a} +frac{d}{b} = frac{bc+ad}{ab}$, so the denominator of it must be some factor of $ab$.






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    up vote
    2
    down vote













    Your assumption, as you note, is not true at all. In particular, if you add those two fractions together and simplify a little, you get $frac{a + b}{b}$. No such decomposition is possible.



    In particular, you can never hope to express $frac{a}{a+b}$ (or any multiple thereof as a sum of something with an $a$ in the denominator and something with a $b$ in the denominator, because $a+b$ is not a factor of $ab$ in general, but $frac{c}{a} +frac{d}{b} = frac{bc+ad}{ab}$, so the denominator of it must be some factor of $ab$.






    share|cite|improve this answer

























      up vote
      2
      down vote













      Your assumption, as you note, is not true at all. In particular, if you add those two fractions together and simplify a little, you get $frac{a + b}{b}$. No such decomposition is possible.



      In particular, you can never hope to express $frac{a}{a+b}$ (or any multiple thereof as a sum of something with an $a$ in the denominator and something with a $b$ in the denominator, because $a+b$ is not a factor of $ab$ in general, but $frac{c}{a} +frac{d}{b} = frac{bc+ad}{ab}$, so the denominator of it must be some factor of $ab$.






      share|cite|improve this answer























        up vote
        2
        down vote










        up vote
        2
        down vote









        Your assumption, as you note, is not true at all. In particular, if you add those two fractions together and simplify a little, you get $frac{a + b}{b}$. No such decomposition is possible.



        In particular, you can never hope to express $frac{a}{a+b}$ (or any multiple thereof as a sum of something with an $a$ in the denominator and something with a $b$ in the denominator, because $a+b$ is not a factor of $ab$ in general, but $frac{c}{a} +frac{d}{b} = frac{bc+ad}{ab}$, so the denominator of it must be some factor of $ab$.






        share|cite|improve this answer












        Your assumption, as you note, is not true at all. In particular, if you add those two fractions together and simplify a little, you get $frac{a + b}{b}$. No such decomposition is possible.



        In particular, you can never hope to express $frac{a}{a+b}$ (or any multiple thereof as a sum of something with an $a$ in the denominator and something with a $b$ in the denominator, because $a+b$ is not a factor of $ab$ in general, but $frac{c}{a} +frac{d}{b} = frac{bc+ad}{ab}$, so the denominator of it must be some factor of $ab$.







        share|cite|improve this answer












        share|cite|improve this answer



        share|cite|improve this answer










        answered Nov 23 at 12:02









        user3482749

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