Question

How do you use synthetic division to divide $\left( {2{x^2} - 23x + 63} \right)$ $ \div \left( {x - 7} \right)$?

Answer 1

Hint: In this problem, we have to divide the given polynomial by using another polynomial. It means a division of a polynomial. In this problem, we are going to use the synthetic division of polynomials. It is the simplest method to divide the polynomial by using another polynomial.

Complete step-by-step solution:
In this problem, we are going to divide the given polynomial by another polynomial
We are going to use synthetic to divide the polynomials.
Synthetic division is the simplest method to divide the polynomials.
In this problem, the given polynomials are
Let we take
$p\left( x \right) = 2{x^2} - 23x + 63$
and $q\left( x \right) = \left( {x - 7} \right)$
Now we have to divide the polynomial $p\left( x \right)$by the polynomial $q\left( x \right)$ by using the synthetic division.
Synthetic division is used when the divisor in the form of $x \pm a\left[ {\left( {x - a} \right)or\left( {x + a} \right)} \right]$
That’s like that we have the divisor, $q\left( x \right) = \left( {x - 7} \right)$
In this method of synthetic division, we only use the coefficients of the dividend.
Therefore we get
We get, $x = 7$
And for the divide bring the leading coefficients down.
Here, arrange the coefficients from the leading term, we arrange from the leading term at the polynomial $p\left( x \right)$,
Therefore the coefficients of
$ {x^2} = 2 \\
  x = - 23 $
And the constant term is $63$
 $7{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} \left| \!{\underline {\, 2{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} - 23{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} 63 \\
    \\ \,}} \right. $
At the next step write the leading term as same and multiple the leading coefficient by the divider $7$
Now, we get
$7{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} \left| \!{\underline {\,
  2{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} - 23{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} 63 \\
  0{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} \\
  \,}} \right. \\
  {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} 2{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} \\
 $
Now multiply the leading term one by the divider $7$, and put the value in the send column, under the next leading term.
$ 7{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} \left| \!{\underline {\,
 2{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} - 23{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} 63 \\
  0{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} 14{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} - 63 \\
  \,}} \right. \\
  {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} 2{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} - 9{\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} {\kern 1pt} 0 $
Now we solved the problem, by using the synthetic division method.
The last term zero is the remainder of the division.
And the quotient is,
The first term $2$ is the coefficient of $x$
And the second term $ - 9$ is the constant term by the solution.
Hence the quotient is $2x - 9$
Hence the solution for this problem is $2x - 9$.

Note: Synthetic division is a shortcut that can be used to divide the polynomial when the divisor is in the form $x \pm a$. And only the coefficients of the given polynomial are used for the synthetic division. Use the bottom numbers to write the quotient of the polynomial. The number which is in the last column is called the remainder. And the next number has degree zero and the next number has degree one and the next number has degree two and so on.