I heard there's a way that can solve all the polynomials speedy. That's cross-factoring, but anyone knows how to use cross-factoring, and could it really solve all kinds of polynomials speedy?

I guess the term 'cross-factoring' is used when you're dividing a polynomial by a polynomial. There is a term 'cross out' when simplifying a polynomial. You just need to factor the denominator and numerator. Then, find the same factors and divide both numerator and denominator. We usually call this 'cross out'. Hope this help! If you have any questions or need help, please ask! :)

I don't get what it means by "Factor the polynomial as the product of two binomials". Does it mean to factor it out after the two are multiplied or does it mean to have the product be the factor?

Wayne, _Factor the polynomial as the product of two binomials_ mean that you are asked to take an expression that looks like this `a^2+2ab+b^2` _(a polynomial)_ and algebraically manipulate the terms until the expression looks like this: `(a+b)(a+b)` _two binomial factors being multiplied_

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Algebra (all content)

Course: Algebra (all content) > Unit 10

Lesson 12: Factoring polynomials by taking common factors

Factoring by common factor review

Google Classroom

The expression 6m+15 can be factored into 3(2m+5) using the distributive property. More complex expressions like 44k^5-66k^4 can be factored in much the same way. This article provides a couple of examples and gives you a chance to try it yourself.

Example 1

Factor.

6, m, plus, 15

Both terms share a common factor of start color #e07d10, 3, end color #e07d10, so we factor out the start color #e07d10, 3, end color #e07d10 using the distributive property:

\begin{aligned} &6m+15\\\\ =&\goldD{3}(2m+5) \end{aligned}

Want a more in-depth explanation? Check out this video.

Example 2

Factor out the greatest common monomial.

44, k, start superscript, 5, end superscript, minus, 66, k, start superscript, 4, end superscript, plus, 77, k, cubed

The coefficients are 44, comma, 66, comma and 77, and their greatest common factor is start color #11accd, 11, end color #11accd.

The variables are k, start superscript, 5, end superscript, comma, k, start superscript, 4, end superscript, comma and k, cubed, and their greatest common factor is start color #11accd, k, cubed, end color #11accd.

Therefore, the greatest common monomial factor is start color #11accd, 11, k, cubed, end color #11accd.

Factoring, we get:

\begin{aligned} &44k^5-66k^4+77k^3\\\\ =&\blueD{11k^3}(4k^2)+\blueD{11k^3}(-6k)+\blueD{11k^3}(7)\\\\ =&\blueD{11k^3}(4k^2-6k+7) \end{aligned}

Want another example like this one? Check out this video.

Practice

Factor the polynomial below by its greatest common monomial factor.

3, b, start superscript, 5, end superscript, plus, 15, b, start superscript, 4, end superscript, minus, 18, b, start superscript, 7, end superscript, equals

Want more practice? Check out this exercise.

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💎Chυcκ Lørrε💎
Posted 5 years ago. Direct link to 💎Chυcκ Lørrε💎's post “I heard there's a way tha...”
I heard there's a way that can solve all the polynomials speedy. That's cross-factoring, but anyone knows how to use cross-factoring, and could it really solve all kinds of polynomials speedy?
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(3 votes)
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- David Lee
  Posted 5 years ago. Direct link to David Lee's post “I guess the term 'cross-f...”
  I guess the term 'cross-factoring' is used when you're dividing a polynomial by a polynomial. There is a term 'cross out' when simplifying a polynomial. You just need to factor the denominator and numerator. Then, find the same factors and divide both numerator and denominator. We usually call this 'cross out'.
  Hope this help! If you have any questions or need help, please ask! :)
  Comment on David Lee's post “I guess the term 'cross-f...”
  (3 votes)
diamond krigger
Posted 5 years ago. Direct link to diamond krigger's post “my test is today and im s...”
my test is today and im still struggling
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(2 votes)
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wayne
Posted 4 years ago. Direct link to wayne's post “I don't get what it means...”
I don't get what it means by "Factor the polynomial as the product of two binomials". Does it mean to factor it out after the two are multiplied or does it mean to have the product be the factor?
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(1 vote)
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- AD Baker
  Posted 4 years ago. Direct link to AD Baker's post “Wayne, _Factor the polyn...”
  Wayne,
  Factor the polynomial as the product of two binomials mean that you are asked to take an expression that looks like this
  
  a^2+2ab+b^2 (a polynomial)
  
  and algebraically manipulate the terms until the expression looks like this:
  
  (a+b)(a+b) two binomial factors being multiplied
  Comment on AD Baker's post “Wayne, _Factor the polyn...”
  (2 votes)
Bhavya
Posted 4 years ago. Direct link to Bhavya's post “I still am having a littl...”
I still am having a little bit of trouble but I think your video helped. If you can explain a little more I would rely think that it would be helpful?
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Makenna Petrusek
Posted 4 years ago. Direct link to Makenna Petrusek's post “I think you don't have to...”
I think you don't have to rewrite the whole equation with the answer
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emiliamolla10
Posted 5 years ago. Direct link to emiliamolla10's post “a^2b-ab^2 can you help me...”
a^2b-ab^2
can you help me solve this?
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Esteban Villegas
Posted 4 years ago. Direct link to Esteban Villegas's post “How do you facto when all...”
How do you facto when all the numbers are negative?
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pearl.herrera
Posted 4 years ago. Direct link to pearl.herrera's post “i still dont know or unde...”
i still dont know or understand how to do this
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Carevee
Posted 5 years ago. Direct link to Carevee's post “The third term's sign is ...”
The third term's sign is a negative, right? How is the trinomial's Greatest Common Factor a positive, when one term is a negative?
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(1 vote)
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- Kim Seidel
  Posted 5 years ago. Direct link to Kim Seidel's post “Factoring is correct as s...”
  Factoring is correct as shown on the screen. Factoring out a common factor divides each term by that factor to remove the common factor from each term. Thus, the signs of the common factor and the new terms follow the rules for division with signed numbers.
  positive / positive = positive
  positive / negative = negative
  negative / positive = negative
  negative / negative = positive.
  
  The common factors "11k^3" is positive. The third term "77k^3" is also positive.
  A positive / a positive = a positive.
  Hope this helps.
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  (1 vote)
Trishia Cagro
Posted 4 years ago. Direct link to Trishia Cagro's post “How do you do quadratic f...”
How do you do quadratic factorization without algebraic discs?
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