{"appState":{"pageLoadApiCallsStatus":true},"articleState":{"article":{"headers":{"creationTime":"2016-03-26T15:10:05+00:00","modifiedTime":"2016-03-26T15:10:05+00:00","timestamp":"2022-09-14T18:05:16+00:00"},"data":{"breadcrumbs":[{"name":"Academics & The Arts","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33662"},"slug":"academics-the-arts","categoryId":33662},{"name":"Math","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33720"},"slug":"math","categoryId":33720},{"name":"Pre-Calculus","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33727"},"slug":"pre-calculus","categoryId":33727}],"title":"How to Expand a Binomial Whose Monomials Have Coefficients or Are Raised to a Power","strippedTitle":"how to expand a binomial whose monomials have coefficients or are raised to a power","slug":"how-to-expand-a-binomial-whose-monomials-have-coefficients-or-are-raised-to-a-power","canonicalUrl":"","seo":{"metaDescription":"At times, monomials can have coefficients and/or be raised to a power before you begin the binomial expansion. In this case, you have to raise the entire monomi","noIndex":0,"noFollow":0},"content":"<p>At times, monomials can have coefficients and/or be raised to a power before you begin the binomial expansion. In this case, you have to raise the entire monomial to the appropriate power in each step. For example, here's how you expand the expression (3<i>x</i><sup>2</sup> – 2<i>y</i>)<sup>7</sup>:</p>\n<ol class=\"level-one\">\n <li><p class=\"first-para\">Write out the binomial expansion by using the binomial theorem, substituting in for the variables where necessary.</p>\n<p class=\"child-para\">In case you forgot, here is the binomial theorem:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370780.image0.png\" width=\"384\" height=\"101\" alt=\"image0.png\"/>\n<p class=\"child-para\">Replace the letter <i>a</i> in the theorem with the quantity (3<i>x</i><sup>2</sup>) and the letter <i>b</i> with (–2<i>y</i>). Don't let those coefficients or exponents scare you — you're still substituting them into the binomial theorem. Replace <i>n</i> with 7. You end up with</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370781.image1.png\" width=\"583\" height=\"145\" alt=\"image1.png\"/>\n </li>\n <li><p class=\"first-para\">Find the binomial coefficients.</p>\n<p class=\"child-para\">The formula for binomial expansion is written in the following form:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370782.image2.png\" width=\"115\" height=\"49\" alt=\"image2.png\"/>\n<p class=\"child-para\">You may recall the term <i>factorial</i> from your earlier math classes. If not, here is a reminder: <i>n</i>!, which reads as \"n factorial,\" is defined as </p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370783.image3.png\" width=\"189\" height=\"27\" alt=\"image3.png\"/>\n<p class=\"child-para\">Now, back to the problem. Using the combination formula gives you the following:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370784.image4.png\" width=\"243\" height=\"424\" alt=\"image4.png\"/>\n </li>\n <li><p class=\"first-para\">Replace all </p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370785.image5.png\" width=\"45\" height=\"48\" alt=\"image5.png\"/>\n </li>\n <li><p class=\"first-para\">with the coefficients from Step 2.</p>\n<p class=\"child-para\">1(3<i>x</i><sup>2</sup>)<sup>7</sup>(–2<i>y</i>)<sup>0</sup> + 7(3<i>x</i><sup>2</sup>)<sup>6</sup>(–2<i>y</i>)<sup>1</sup> + 21(3<i>x</i><sup>2</sup>)<sup>5</sup>(–2<i>y</i>)<sup>2</sup> + 35(3<i>x</i><sup>2</sup>)<sup>4</sup>(–2<i>y</i>)<sup>3</sup> + 35(3<i>x</i><sup>2</sup>)<sup>3</sup>(–2<i>y</i>)<sup>4</sup> + 21(3<i>x</i><sup>2</sup>)<sup>2</sup>(–2<i>y</i>)<sup>5</sup> + 7(3<i>x</i><sup>2</sup>)<sup>1</sup>(–2<i>y</i>)<sup>6</sup> + 1(3<i>x</i><sup>2</sup>)<sup>0</sup>(–2<i>y</i>)<sup>7</sup></p>\n </li>\n <li><p class=\"first-para\">Raise the monomials to the powers specified for each term.</p>\n<p class=\"child-para\">1(2,187x14)(1) + 7(729x12)(–2y) + 21(243x10)(4y2) + 35(81x8)(–8y3) + 35(27x6)(16y4) + 21(9x4)(–32y5) + 7(3x2)(64y6) + 1(1)(–128y7)</p>\n </li>\n <li><p class=\"first-para\">Simplify.</p>\n<p class=\"child-para\">2,187x14 – 10,206x12y + 20,412x10y2 – 22,680x8y3 + 15,120x6y4 – 6,048x4y5 + 1,344x2y6 – 128y7</p>\n </li>\n</ol>","description":"<p>At times, monomials can have coefficients and/or be raised to a power before you begin the binomial expansion. In this case, you have to raise the entire monomial to the appropriate power in each step. For example, here's how you expand the expression (3<i>x</i><sup>2</sup> – 2<i>y</i>)<sup>7</sup>:</p>\n<ol class=\"level-one\">\n <li><p class=\"first-para\">Write out the binomial expansion by using the binomial theorem, substituting in for the variables where necessary.</p>\n<p class=\"child-para\">In case you forgot, here is the binomial theorem:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370780.image0.png\" width=\"384\" height=\"101\" alt=\"image0.png\"/>\n<p class=\"child-para\">Replace the letter <i>a</i> in the theorem with the quantity (3<i>x</i><sup>2</sup>) and the letter <i>b</i> with (–2<i>y</i>). Don't let those coefficients or exponents scare you — you're still substituting them into the binomial theorem. Replace <i>n</i> with 7. You end up with</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370781.image1.png\" width=\"583\" height=\"145\" alt=\"image1.png\"/>\n </li>\n <li><p class=\"first-para\">Find the binomial coefficients.</p>\n<p class=\"child-para\">The formula for binomial expansion is written in the following form:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370782.image2.png\" width=\"115\" height=\"49\" alt=\"image2.png\"/>\n<p class=\"child-para\">You may recall the term <i>factorial</i> from your earlier math classes. If not, here is a reminder: <i>n</i>!, which reads as \"n factorial,\" is defined as </p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370783.image3.png\" width=\"189\" height=\"27\" alt=\"image3.png\"/>\n<p class=\"child-para\">Now, back to the problem. Using the combination formula gives you the following:</p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370784.image4.png\" width=\"243\" height=\"424\" alt=\"image4.png\"/>\n </li>\n <li><p class=\"first-para\">Replace all </p>\n<img src=\"https://www.dummies.com/wp-content/uploads/370785.image5.png\" width=\"45\" height=\"48\" alt=\"image5.png\"/>\n </li>\n <li><p class=\"first-para\">with the coefficients from Step 2.</p>\n<p class=\"child-para\">1(3<i>x</i><sup>2</sup>)<sup>7</sup>(–2<i>y</i>)<sup>0</sup> + 7(3<i>x</i><sup>2</sup>)<sup>6</sup>(–2<i>y</i>)<sup>1</sup> + 21(3<i>x</i><sup>2</sup>)<sup>5</sup>(–2<i>y</i>)<sup>2</sup> + 35(3<i>x</i><sup>2</sup>)<sup>4</sup>(–2<i>y</i>)<sup>3</sup> + 35(3<i>x</i><sup>2</sup>)<sup>3</sup>(–2<i>y</i>)<sup>4</sup> + 21(3<i>x</i><sup>2</sup>)<sup>2</sup>(–2<i>y</i>)<sup>5</sup> + 7(3<i>x</i><sup>2</sup>)<sup>1</sup>(–2<i>y</i>)<sup>6</sup> + 1(3<i>x</i><sup>2</sup>)<sup>0</sup>(–2<i>y</i>)<sup>7</sup></p>\n </li>\n <li><p class=\"first-para\">Raise the monomials to the powers specified for each term.</p>\n<p class=\"child-para\">1(2,187x14)(1) + 7(729x12)(–2y) + 21(243x10)(4y2) + 35(81x8)(–8y3) + 35(27x6)(16y4) + 21(9x4)(–32y5) + 7(3x2)(64y6) + 1(1)(–128y7)</p>\n </li>\n <li><p class=\"first-para\">Simplify.</p>\n<p class=\"child-para\">2,187x14 – 10,206x12y + 20,412x10y2 – 22,680x8y3 + 15,120x6y4 – 6,048x4y5 + 1,344x2y6 – 128y7</p>\n </li>\n</ol>","blurb":"","authors":[{"authorId":9703,"name":"Yang Kuang","slug":"yang-kuang","description":"","hasArticle":false,"_links":{"self":"https://dummies-api.dummies.com/v2/authors/9703"}},{"authorId":9704,"name":"Elleyne Kase","slug":"elleyne-kase","description":"","hasArticle":false,"_links":{"self":"https://dummies-api.dummies.com/v2/authors/9704"}}],"primaryCategoryTaxonomy":{"categoryId":33727,"title":"Pre-Calculus","slug":"pre-calculus","_links":{"self":"https://dummies-api.dummies.com/v2/categories/33727"}},"secondaryCategoryTaxonomy":{"categoryId":0,"title":null,"slug":null,"_links":null},"tertiaryCategoryTaxonomy":{"categoryId":0,"title":null,"slug":null,"_links":null},"trendingArticles":null,"inThisArticle":[],"relatedArticles":{"fromBook":[],"fromCategory":[{"articleId":262884,"title":"10 Pre-Calculus Missteps to Avoid","slug":"10-pre-calculus-missteps-to-avoid","categoryList":["academics-the-arts","math","pre-calculus"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/262884"}},{"articleId":262851,"title":"Pre-Calculus Review of Real Numbers","slug":"pre-calculus-review-of-real-numbers","categoryList":["academics-the-arts","math","pre-calculus"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/262851"}},{"articleId":262837,"title":"Fundamentals of Pre-Calculus","slug":"fundamentals-of-pre-calculus","categoryList":["academics-the-arts","math","pre-calculus"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/262837"}},{"articleId":262652,"title":"Complex Numbers and Polar Coordinates","slug":"complex-numbers-and-polar-coordinates","categoryList":["academics-the-arts","math","pre-calculus"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/262652"}},{"articleId":260218,"title":"Special Function Types and Their Graphs","slug":"special-function-types-and-their-graphs","categoryList":["academics-the-arts","math","pre-calculus"],"_links":{"self":"https://dummies-api.dummies.com/v2/articles/260218"}}]},"hasRelatedBookFromSearch":true,"relatedBook":{"bookId":291201,"slug":"basic-math-and-pre-algebra-all-in-one-for-dummies","isbn":"9781119867081","categoryList":["academics-the-arts","math","pre-algebra"],"amazon":{"default":"https://www.amazon.com/gp/product/1119867088/ref=as_li_tl?ie=UTF8&tag=wiley01-20","ca":"https://www.amazon.ca/gp/product/1119867088/ref=as_li_tl?ie=UTF8&tag=wiley01-20","indigo_ca":"http://www.tkqlhce.com/click-9208661-13710633?url=https://www.chapters.indigo.ca/en-ca/books/product/1119867088-item.html&cjsku=978111945484","gb":"https://www.amazon.co.uk/gp/product/1119867088/ref=as_li_tl?ie=UTF8&tag=wiley01-20","de":"https://www.amazon.de/gp/product/1119867088/ref=as_li_tl?ie=UTF8&tag=wiley01-20"},"image":{"src":"https://www.dummies.com/covers/9781119867081.jpg","width":250,"height":350},"title":"Basic Math & Pre-Algebra All-in-One For Dummies (+ Chapter Quizzes Online)","testBankPinActivationLink":"","bookOutOfPrint":true,"authorsInfo":"\n <p><div><b><b data-author-id=\"9399\">Mark Zegarelli</b></b> (Long Branch, NJ) holds degrees in math and English from Rutgers University. His deep interest in logic has led him to write numerous magazine articles and three books of logic puzzles.</div></p>","authors":[{"authorId":9399,"name":"Mark Zegarelli","slug":"mark-zegarelli","description":" <div><b>Mark Zegarelli</b> (Long Branch, NJ) holds degrees in math and English from Rutgers University. 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How to Expand a Binomial Whose Monomials Have Coefficients or Are Raised to a Power

By: Yang Kuang and Elleyne Kase and

Updated: 03-26-2016

Basic Math & Pre-Algebra All-in-One For Dummies (+ Chapter Quizzes Online)

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At times, monomials can have coefficients and/or be raised to a power before you begin the binomial expansion. In this case, you have to raise the entire monomial to the appropriate power in each step. For example, here's how you expand the expression (3x² – 2y)⁷:

Write out the binomial expansion by using the binomial theorem, substituting in for the variables where necessary.

In case you forgot, here is the binomial theorem:

Replace the letter a in the theorem with the quantity (3x²) and the letter b with (–2y). Don't let those coefficients or exponents scare you — you're still substituting them into the binomial theorem. Replace n with 7. You end up with
Find the binomial coefficients.

The formula for binomial expansion is written in the following form:

You may recall the term factorial from your earlier math classes. If not, here is a reminder: n!, which reads as "n factorial," is defined as

Now, back to the problem. Using the combination formula gives you the following:
Replace all
with the coefficients from Step 2.

1(3x²)⁷(–2y)⁰ + 7(3x²)⁶(–2y)¹ + 21(3x²)⁵(–2y)² + 35(3x²)⁴(–2y)³ + 35(3x²)³(–2y)⁴ + 21(3x²)²(–2y)⁵ + 7(3x²)¹(–2y)⁶ + 1(3x²)⁰(–2y)⁷
Raise the monomials to the powers specified for each term.

1(2,187x14)(1) + 7(729x12)(–2y) + 21(243x10)(4y2) + 35(81x8)(–8y3) + 35(27x6)(16y4) + 21(9x4)(–32y5) + 7(3x2)(64y6) + 1(1)(–128y7)
Simplify.

2,187x14 – 10,206x12y + 20,412x10y2 – 22,680x8y3 + 15,120x6y4 – 6,048x4y5 + 1,344x2y6 – 128y7

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