Math, asked by stiyaSabu, 3 months ago

divide the polynomial x/x in one step​

Answers

Answered by itzinnocentbndii
2

Step-by-step explanation:

If you're dividing a polynomial by something more complicated than just a simple monomial (that is, by something more complicated than a one-term polynomial), then you'll need to use a different method for the simplification. That method is called "long polynomial division", and it works just like the long (numerical) division you did back in elementary school, except that now you're dividing with variables.

If you're dividing a polynomial by something more complicated than just a simple monomial (that is, by something more complicated than a one-term polynomial), then you'll need to use a different method for the simplification. That method is called "long polynomial division", and it works just like the long (numerical) division you did back in elementary school, except that now you're dividing with variables.Divide x2 – 9x – 10 by x + 1

If you're dividing a polynomial by something more complicated than just a simple monomial (that is, by something more complicated than a one-term polynomial), then you'll need to use a different method for the simplification. That method is called "long polynomial division", and it works just like the long (numerical) division you did back in elementary school, except that now you're dividing with variables.Divide x2 – 9x – 10 by x + 1Think back to when you were doing long division with plain old numbers. You would be given one number (called the divisor) that you had to divide into another number (called the dividend). You set up the long-division symbol, inserted the two numbers where they belonged, and then started making guesses as to what should go on top of the symbol.

Answered by Anonymous
2

\huge{\underline{\underline{\boxed{\mathscr{\pink{Aɴsᴡᴇʀ\: ࿐}}}}}}

  • No, you cannot. In order to divide polynomials using synthetic division, the denominator (the number(s) on the bottom of the fraction) must satisfy two rules: 1 - Be a linear expression, in other words, each term must either be a constant or the product of a constant and a single variable to the power of 1.
Similar questions