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In polynomial division, the remainder's degree is always less than that of the divisor, but when dividing $x^3+y^3$ by $x+5$, it isn't



The 2019 Stack Overflow Developer Survey Results Are In
Announcing the arrival of Valued Associate #679: Cesar Manara
Planned maintenance scheduled April 17/18, 2019 at 00:00UTC (8:00pm US/Eastern)How to know what is the degree of the remainderWhy can/do we multiply all terms of a divisor with polynomial long division?Why, given a natural number $n$, does $n^6$ always have the remainder of 1 when divided by 7?Binary long division for polynomials in CRC computationHow to use remainder theorem if divisor is not in form (x-a)?Finding the remainder polynomial for a given polynomial.Why is the remainder of any polynomial divided by a 1st degree polynomial, a constantWhat impact does the factorization of a polynomial have on the degree of its remainder?Is the following claim about modeular polynomial division correct?Why do we automatically assume that when we divide a polynomial by a second degree polynomial the remainder is linear?










4












$begingroup$


I'm just a 9th grader trying to self-study, so if the question sounds silly to you please excuse me.




$P(x) = x^3 + y^3$ is divided by something like $g(x) = x + 5;$ the degree of the polynomial is $3$. Doesn't the degree of the remainder always be less than that of the divisor. Can someone explain what is happening?











share|cite|improve this question











$endgroup$







  • 1




    $begingroup$
    I believe the problem is simply that you're dealing with a polynomial in two variables, $x,y$ for $P$. That the remainder has a lesser degree than the divisor only really holds in the case of polynomials in one variable, I believe.
    $endgroup$
    – Eevee Trainer
    Feb 20 at 7:17






  • 2




    $begingroup$
    To rewrite my previous (now deleted) comment because I'm dumb and it's been a while since I've dealt with this. Basically I noticed you have $P(x)$, but $P(x,y)$ would be more appropriate if $y$ was a variable. If $y$ is not a variable, i.e. some constant, then your remainder (which I got to be $y^3 - 125$) would be of degree zero as intended in the one-variable case. Of course if we have multiple variables a lot of nice stuff we have simply flies out the window. Such is math.
    $endgroup$
    – Eevee Trainer
    Feb 20 at 7:23







  • 3




    $begingroup$
    The degree of that result viewed as a polynomial in x is less than 3.
    $endgroup$
    – William Elliot
    Feb 20 at 7:53










  • $begingroup$
    So, y is not a variable but just a constant that we do not know the value of.Since y is a constant its degree will be 0 and not 3.
    $endgroup$
    – Aditya Bharadwaj
    Feb 20 at 8:12










  • $begingroup$
    If you wish to learn how to extend the division algorithm to multivariate polynomails then search on "grobner basis".
    $endgroup$
    – Bill Dubuque
    Feb 20 at 21:52















4












$begingroup$


I'm just a 9th grader trying to self-study, so if the question sounds silly to you please excuse me.




$P(x) = x^3 + y^3$ is divided by something like $g(x) = x + 5;$ the degree of the polynomial is $3$. Doesn't the degree of the remainder always be less than that of the divisor. Can someone explain what is happening?











share|cite|improve this question











$endgroup$







  • 1




    $begingroup$
    I believe the problem is simply that you're dealing with a polynomial in two variables, $x,y$ for $P$. That the remainder has a lesser degree than the divisor only really holds in the case of polynomials in one variable, I believe.
    $endgroup$
    – Eevee Trainer
    Feb 20 at 7:17






  • 2




    $begingroup$
    To rewrite my previous (now deleted) comment because I'm dumb and it's been a while since I've dealt with this. Basically I noticed you have $P(x)$, but $P(x,y)$ would be more appropriate if $y$ was a variable. If $y$ is not a variable, i.e. some constant, then your remainder (which I got to be $y^3 - 125$) would be of degree zero as intended in the one-variable case. Of course if we have multiple variables a lot of nice stuff we have simply flies out the window. Such is math.
    $endgroup$
    – Eevee Trainer
    Feb 20 at 7:23







  • 3




    $begingroup$
    The degree of that result viewed as a polynomial in x is less than 3.
    $endgroup$
    – William Elliot
    Feb 20 at 7:53










  • $begingroup$
    So, y is not a variable but just a constant that we do not know the value of.Since y is a constant its degree will be 0 and not 3.
    $endgroup$
    – Aditya Bharadwaj
    Feb 20 at 8:12










  • $begingroup$
    If you wish to learn how to extend the division algorithm to multivariate polynomails then search on "grobner basis".
    $endgroup$
    – Bill Dubuque
    Feb 20 at 21:52













4












4








4


1



$begingroup$


I'm just a 9th grader trying to self-study, so if the question sounds silly to you please excuse me.




$P(x) = x^3 + y^3$ is divided by something like $g(x) = x + 5;$ the degree of the polynomial is $3$. Doesn't the degree of the remainder always be less than that of the divisor. Can someone explain what is happening?











share|cite|improve this question











$endgroup$




I'm just a 9th grader trying to self-study, so if the question sounds silly to you please excuse me.




$P(x) = x^3 + y^3$ is divided by something like $g(x) = x + 5;$ the degree of the polynomial is $3$. Doesn't the degree of the remainder always be less than that of the divisor. Can someone explain what is happening?








algebra-precalculus polynomials






share|cite|improve this question















share|cite|improve this question













share|cite|improve this question




share|cite|improve this question








edited Mar 25 at 9:00









Blue

49.7k870158




49.7k870158










asked Feb 20 at 7:11









Aditya BharadwajAditya Bharadwaj

1261




1261







  • 1




    $begingroup$
    I believe the problem is simply that you're dealing with a polynomial in two variables, $x,y$ for $P$. That the remainder has a lesser degree than the divisor only really holds in the case of polynomials in one variable, I believe.
    $endgroup$
    – Eevee Trainer
    Feb 20 at 7:17






  • 2




    $begingroup$
    To rewrite my previous (now deleted) comment because I'm dumb and it's been a while since I've dealt with this. Basically I noticed you have $P(x)$, but $P(x,y)$ would be more appropriate if $y$ was a variable. If $y$ is not a variable, i.e. some constant, then your remainder (which I got to be $y^3 - 125$) would be of degree zero as intended in the one-variable case. Of course if we have multiple variables a lot of nice stuff we have simply flies out the window. Such is math.
    $endgroup$
    – Eevee Trainer
    Feb 20 at 7:23







  • 3




    $begingroup$
    The degree of that result viewed as a polynomial in x is less than 3.
    $endgroup$
    – William Elliot
    Feb 20 at 7:53










  • $begingroup$
    So, y is not a variable but just a constant that we do not know the value of.Since y is a constant its degree will be 0 and not 3.
    $endgroup$
    – Aditya Bharadwaj
    Feb 20 at 8:12










  • $begingroup$
    If you wish to learn how to extend the division algorithm to multivariate polynomails then search on "grobner basis".
    $endgroup$
    – Bill Dubuque
    Feb 20 at 21:52












  • 1




    $begingroup$
    I believe the problem is simply that you're dealing with a polynomial in two variables, $x,y$ for $P$. That the remainder has a lesser degree than the divisor only really holds in the case of polynomials in one variable, I believe.
    $endgroup$
    – Eevee Trainer
    Feb 20 at 7:17






  • 2




    $begingroup$
    To rewrite my previous (now deleted) comment because I'm dumb and it's been a while since I've dealt with this. Basically I noticed you have $P(x)$, but $P(x,y)$ would be more appropriate if $y$ was a variable. If $y$ is not a variable, i.e. some constant, then your remainder (which I got to be $y^3 - 125$) would be of degree zero as intended in the one-variable case. Of course if we have multiple variables a lot of nice stuff we have simply flies out the window. Such is math.
    $endgroup$
    – Eevee Trainer
    Feb 20 at 7:23







  • 3




    $begingroup$
    The degree of that result viewed as a polynomial in x is less than 3.
    $endgroup$
    – William Elliot
    Feb 20 at 7:53










  • $begingroup$
    So, y is not a variable but just a constant that we do not know the value of.Since y is a constant its degree will be 0 and not 3.
    $endgroup$
    – Aditya Bharadwaj
    Feb 20 at 8:12










  • $begingroup$
    If you wish to learn how to extend the division algorithm to multivariate polynomails then search on "grobner basis".
    $endgroup$
    – Bill Dubuque
    Feb 20 at 21:52







1




1




$begingroup$
I believe the problem is simply that you're dealing with a polynomial in two variables, $x,y$ for $P$. That the remainder has a lesser degree than the divisor only really holds in the case of polynomials in one variable, I believe.
$endgroup$
– Eevee Trainer
Feb 20 at 7:17




$begingroup$
I believe the problem is simply that you're dealing with a polynomial in two variables, $x,y$ for $P$. That the remainder has a lesser degree than the divisor only really holds in the case of polynomials in one variable, I believe.
$endgroup$
– Eevee Trainer
Feb 20 at 7:17




2




2




$begingroup$
To rewrite my previous (now deleted) comment because I'm dumb and it's been a while since I've dealt with this. Basically I noticed you have $P(x)$, but $P(x,y)$ would be more appropriate if $y$ was a variable. If $y$ is not a variable, i.e. some constant, then your remainder (which I got to be $y^3 - 125$) would be of degree zero as intended in the one-variable case. Of course if we have multiple variables a lot of nice stuff we have simply flies out the window. Such is math.
$endgroup$
– Eevee Trainer
Feb 20 at 7:23





$begingroup$
To rewrite my previous (now deleted) comment because I'm dumb and it's been a while since I've dealt with this. Basically I noticed you have $P(x)$, but $P(x,y)$ would be more appropriate if $y$ was a variable. If $y$ is not a variable, i.e. some constant, then your remainder (which I got to be $y^3 - 125$) would be of degree zero as intended in the one-variable case. Of course if we have multiple variables a lot of nice stuff we have simply flies out the window. Such is math.
$endgroup$
– Eevee Trainer
Feb 20 at 7:23





3




3




$begingroup$
The degree of that result viewed as a polynomial in x is less than 3.
$endgroup$
– William Elliot
Feb 20 at 7:53




$begingroup$
The degree of that result viewed as a polynomial in x is less than 3.
$endgroup$
– William Elliot
Feb 20 at 7:53












$begingroup$
So, y is not a variable but just a constant that we do not know the value of.Since y is a constant its degree will be 0 and not 3.
$endgroup$
– Aditya Bharadwaj
Feb 20 at 8:12




$begingroup$
So, y is not a variable but just a constant that we do not know the value of.Since y is a constant its degree will be 0 and not 3.
$endgroup$
– Aditya Bharadwaj
Feb 20 at 8:12












$begingroup$
If you wish to learn how to extend the division algorithm to multivariate polynomails then search on "grobner basis".
$endgroup$
– Bill Dubuque
Feb 20 at 21:52




$begingroup$
If you wish to learn how to extend the division algorithm to multivariate polynomails then search on "grobner basis".
$endgroup$
– Bill Dubuque
Feb 20 at 21:52










1 Answer
1






active

oldest

votes


















0












$begingroup$

As clarified by the OP in the comments that $y$ is a constant. I would rewrite $y$ as $a$ so that it looks more constant-like for the sake of convenience.



Now $P(x)=x^3+a^3$ and $g(x)=x+5$. By Euclid's Division Lemma for Polynomials you do have $textdeg r(x)=0$ or $textdeg r(x)lttextdeg g(x)$.



You may confirm this by long division method which gives you the following result: $$dfracx^3+a^3x+5=x^2+5x-25+dfrac125+a^3x+5$$ or $r(x)=125+a^3$ and $q(x)=x^2+5x-25$ which clearly satisfies $textdeg g(x)=1gttextdeg r(x)=0$. So there is no discrepancy.






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    0












    $begingroup$

    As clarified by the OP in the comments that $y$ is a constant. I would rewrite $y$ as $a$ so that it looks more constant-like for the sake of convenience.



    Now $P(x)=x^3+a^3$ and $g(x)=x+5$. By Euclid's Division Lemma for Polynomials you do have $textdeg r(x)=0$ or $textdeg r(x)lttextdeg g(x)$.



    You may confirm this by long division method which gives you the following result: $$dfracx^3+a^3x+5=x^2+5x-25+dfrac125+a^3x+5$$ or $r(x)=125+a^3$ and $q(x)=x^2+5x-25$ which clearly satisfies $textdeg g(x)=1gttextdeg r(x)=0$. So there is no discrepancy.






    share|cite|improve this answer









    $endgroup$

















      0












      $begingroup$

      As clarified by the OP in the comments that $y$ is a constant. I would rewrite $y$ as $a$ so that it looks more constant-like for the sake of convenience.



      Now $P(x)=x^3+a^3$ and $g(x)=x+5$. By Euclid's Division Lemma for Polynomials you do have $textdeg r(x)=0$ or $textdeg r(x)lttextdeg g(x)$.



      You may confirm this by long division method which gives you the following result: $$dfracx^3+a^3x+5=x^2+5x-25+dfrac125+a^3x+5$$ or $r(x)=125+a^3$ and $q(x)=x^2+5x-25$ which clearly satisfies $textdeg g(x)=1gttextdeg r(x)=0$. So there is no discrepancy.






      share|cite|improve this answer









      $endgroup$















        0












        0








        0





        $begingroup$

        As clarified by the OP in the comments that $y$ is a constant. I would rewrite $y$ as $a$ so that it looks more constant-like for the sake of convenience.



        Now $P(x)=x^3+a^3$ and $g(x)=x+5$. By Euclid's Division Lemma for Polynomials you do have $textdeg r(x)=0$ or $textdeg r(x)lttextdeg g(x)$.



        You may confirm this by long division method which gives you the following result: $$dfracx^3+a^3x+5=x^2+5x-25+dfrac125+a^3x+5$$ or $r(x)=125+a^3$ and $q(x)=x^2+5x-25$ which clearly satisfies $textdeg g(x)=1gttextdeg r(x)=0$. So there is no discrepancy.






        share|cite|improve this answer









        $endgroup$



        As clarified by the OP in the comments that $y$ is a constant. I would rewrite $y$ as $a$ so that it looks more constant-like for the sake of convenience.



        Now $P(x)=x^3+a^3$ and $g(x)=x+5$. By Euclid's Division Lemma for Polynomials you do have $textdeg r(x)=0$ or $textdeg r(x)lttextdeg g(x)$.



        You may confirm this by long division method which gives you the following result: $$dfracx^3+a^3x+5=x^2+5x-25+dfrac125+a^3x+5$$ or $r(x)=125+a^3$ and $q(x)=x^2+5x-25$ which clearly satisfies $textdeg g(x)=1gttextdeg r(x)=0$. So there is no discrepancy.







        share|cite|improve this answer












        share|cite|improve this answer



        share|cite|improve this answer










        answered Mar 25 at 7:53









        Paras KhoslaParas Khosla

        3,278627




        3,278627



























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