Setting fraction equal to each other with the same numerator











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If we have 2 fractions and set them equal to each other, can we remove the numerator without changing the equation? So the demonators would just equal eachother, so $4p = 8$ Like this:



$$frac{1}{4p} = frac{1}{8}$$
Multiply each side by 4p:



$$frac{4p*1}{4p} = frac{4p*1}{8}$$
Then we cross out each 4p on the LHS:
$$1 = frac{4p}{8}$$
Then times each side by 8 to isolate p:
$$1*8 = frac{4p*8}{8}$$
And finnally we cross out each 8 on the LHS and left with:
$$8= 4p$$
Can we do this with any number? Assuming of course the number is real.










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  • 2




    Yes, if $1/x=1/y$ then $x=y$ ($x$ and $y$ nonzero reals).
    – Lord Shark the Unknown
    Nov 19 at 7:05















up vote
0
down vote

favorite












If we have 2 fractions and set them equal to each other, can we remove the numerator without changing the equation? So the demonators would just equal eachother, so $4p = 8$ Like this:



$$frac{1}{4p} = frac{1}{8}$$
Multiply each side by 4p:



$$frac{4p*1}{4p} = frac{4p*1}{8}$$
Then we cross out each 4p on the LHS:
$$1 = frac{4p}{8}$$
Then times each side by 8 to isolate p:
$$1*8 = frac{4p*8}{8}$$
And finnally we cross out each 8 on the LHS and left with:
$$8= 4p$$
Can we do this with any number? Assuming of course the number is real.










share|cite|improve this question


















  • 2




    Yes, if $1/x=1/y$ then $x=y$ ($x$ and $y$ nonzero reals).
    – Lord Shark the Unknown
    Nov 19 at 7:05













up vote
0
down vote

favorite









up vote
0
down vote

favorite











If we have 2 fractions and set them equal to each other, can we remove the numerator without changing the equation? So the demonators would just equal eachother, so $4p = 8$ Like this:



$$frac{1}{4p} = frac{1}{8}$$
Multiply each side by 4p:



$$frac{4p*1}{4p} = frac{4p*1}{8}$$
Then we cross out each 4p on the LHS:
$$1 = frac{4p}{8}$$
Then times each side by 8 to isolate p:
$$1*8 = frac{4p*8}{8}$$
And finnally we cross out each 8 on the LHS and left with:
$$8= 4p$$
Can we do this with any number? Assuming of course the number is real.










share|cite|improve this question













If we have 2 fractions and set them equal to each other, can we remove the numerator without changing the equation? So the demonators would just equal eachother, so $4p = 8$ Like this:



$$frac{1}{4p} = frac{1}{8}$$
Multiply each side by 4p:



$$frac{4p*1}{4p} = frac{4p*1}{8}$$
Then we cross out each 4p on the LHS:
$$1 = frac{4p}{8}$$
Then times each side by 8 to isolate p:
$$1*8 = frac{4p*8}{8}$$
And finnally we cross out each 8 on the LHS and left with:
$$8= 4p$$
Can we do this with any number? Assuming of course the number is real.







algebra-precalculus






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asked Nov 19 at 7:01









Samurai

123




123








  • 2




    Yes, if $1/x=1/y$ then $x=y$ ($x$ and $y$ nonzero reals).
    – Lord Shark the Unknown
    Nov 19 at 7:05














  • 2




    Yes, if $1/x=1/y$ then $x=y$ ($x$ and $y$ nonzero reals).
    – Lord Shark the Unknown
    Nov 19 at 7:05








2




2




Yes, if $1/x=1/y$ then $x=y$ ($x$ and $y$ nonzero reals).
– Lord Shark the Unknown
Nov 19 at 7:05




Yes, if $1/x=1/y$ then $x=y$ ($x$ and $y$ nonzero reals).
– Lord Shark the Unknown
Nov 19 at 7:05










2 Answers
2






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up vote
0
down vote



accepted










Suppose we have $$frac{a}{b}=frac{a}{c}$$



where $a ne 0$.



Multiplying both sides by $frac{bc}{a}$ gives us $c=b$.






share|cite|improve this answer





















  • Thanks for confirming my thought!
    – Samurai
    Nov 19 at 7:22


















up vote
0
down vote













Assuming $p neq 0 $ (which is necessary for LHS not being undefined), you can directly multiply by the denominators' Minimum Common Multiple to yield:



$$
frac{1}{4p}=frac{1}{8} quadbigg|cdot 32p iff 8=4p iff p=2$$



Another point of view:




The function $,,f(x):=frac1x, quad f: mathbb{R^*}longrightarrow mathbb{R^*},,$ is bijective (or one-to-one), which by definition means that:



$$textit{If}quad f(a)=f(b)quad textbf{then}quad a=b$$




Your equation is nothing else than



$$f(4p)=f(8)$$



Considering $f$'s bijective:



$$4p=8 iff p=2$$






share|cite|improve this answer





















    Your Answer





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    2 Answers
    2






    active

    oldest

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    2 Answers
    2






    active

    oldest

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    active

    oldest

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    active

    oldest

    votes








    up vote
    0
    down vote



    accepted










    Suppose we have $$frac{a}{b}=frac{a}{c}$$



    where $a ne 0$.



    Multiplying both sides by $frac{bc}{a}$ gives us $c=b$.






    share|cite|improve this answer





















    • Thanks for confirming my thought!
      – Samurai
      Nov 19 at 7:22















    up vote
    0
    down vote



    accepted










    Suppose we have $$frac{a}{b}=frac{a}{c}$$



    where $a ne 0$.



    Multiplying both sides by $frac{bc}{a}$ gives us $c=b$.






    share|cite|improve this answer





















    • Thanks for confirming my thought!
      – Samurai
      Nov 19 at 7:22













    up vote
    0
    down vote



    accepted







    up vote
    0
    down vote



    accepted






    Suppose we have $$frac{a}{b}=frac{a}{c}$$



    where $a ne 0$.



    Multiplying both sides by $frac{bc}{a}$ gives us $c=b$.






    share|cite|improve this answer












    Suppose we have $$frac{a}{b}=frac{a}{c}$$



    where $a ne 0$.



    Multiplying both sides by $frac{bc}{a}$ gives us $c=b$.







    share|cite|improve this answer












    share|cite|improve this answer



    share|cite|improve this answer










    answered Nov 19 at 7:05









    Siong Thye Goh

    97.1k1463116




    97.1k1463116












    • Thanks for confirming my thought!
      – Samurai
      Nov 19 at 7:22


















    • Thanks for confirming my thought!
      – Samurai
      Nov 19 at 7:22
















    Thanks for confirming my thought!
    – Samurai
    Nov 19 at 7:22




    Thanks for confirming my thought!
    – Samurai
    Nov 19 at 7:22










    up vote
    0
    down vote













    Assuming $p neq 0 $ (which is necessary for LHS not being undefined), you can directly multiply by the denominators' Minimum Common Multiple to yield:



    $$
    frac{1}{4p}=frac{1}{8} quadbigg|cdot 32p iff 8=4p iff p=2$$



    Another point of view:




    The function $,,f(x):=frac1x, quad f: mathbb{R^*}longrightarrow mathbb{R^*},,$ is bijective (or one-to-one), which by definition means that:



    $$textit{If}quad f(a)=f(b)quad textbf{then}quad a=b$$




    Your equation is nothing else than



    $$f(4p)=f(8)$$



    Considering $f$'s bijective:



    $$4p=8 iff p=2$$






    share|cite|improve this answer

























      up vote
      0
      down vote













      Assuming $p neq 0 $ (which is necessary for LHS not being undefined), you can directly multiply by the denominators' Minimum Common Multiple to yield:



      $$
      frac{1}{4p}=frac{1}{8} quadbigg|cdot 32p iff 8=4p iff p=2$$



      Another point of view:




      The function $,,f(x):=frac1x, quad f: mathbb{R^*}longrightarrow mathbb{R^*},,$ is bijective (or one-to-one), which by definition means that:



      $$textit{If}quad f(a)=f(b)quad textbf{then}quad a=b$$




      Your equation is nothing else than



      $$f(4p)=f(8)$$



      Considering $f$'s bijective:



      $$4p=8 iff p=2$$






      share|cite|improve this answer























        up vote
        0
        down vote










        up vote
        0
        down vote









        Assuming $p neq 0 $ (which is necessary for LHS not being undefined), you can directly multiply by the denominators' Minimum Common Multiple to yield:



        $$
        frac{1}{4p}=frac{1}{8} quadbigg|cdot 32p iff 8=4p iff p=2$$



        Another point of view:




        The function $,,f(x):=frac1x, quad f: mathbb{R^*}longrightarrow mathbb{R^*},,$ is bijective (or one-to-one), which by definition means that:



        $$textit{If}quad f(a)=f(b)quad textbf{then}quad a=b$$




        Your equation is nothing else than



        $$f(4p)=f(8)$$



        Considering $f$'s bijective:



        $$4p=8 iff p=2$$






        share|cite|improve this answer












        Assuming $p neq 0 $ (which is necessary for LHS not being undefined), you can directly multiply by the denominators' Minimum Common Multiple to yield:



        $$
        frac{1}{4p}=frac{1}{8} quadbigg|cdot 32p iff 8=4p iff p=2$$



        Another point of view:




        The function $,,f(x):=frac1x, quad f: mathbb{R^*}longrightarrow mathbb{R^*},,$ is bijective (or one-to-one), which by definition means that:



        $$textit{If}quad f(a)=f(b)quad textbf{then}quad a=b$$




        Your equation is nothing else than



        $$f(4p)=f(8)$$



        Considering $f$'s bijective:



        $$4p=8 iff p=2$$







        share|cite|improve this answer












        share|cite|improve this answer



        share|cite|improve this answer










        answered Nov 19 at 7:48









        Jevaut

        55310




        55310






























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