/*! This file is auto-generated */ .wp-block-button__link{color:#fff;background-color:#32373c;border-radius:9999px;box-shadow:none;text-decoration:none;padding:calc(.667em + 2px) calc(1.333em + 2px);font-size:1.125em}.wp-block-file__button{background:#32373c;color:#fff;text-decoration:none} Problem 51 In Exercises 51-58, use the Bino... [FREE SOLUTION] | 91Ó°ÊÓ

91Ó°ÊÓ

Log out

Learning Materials

Features

Discover

Chapter 10: Problem 51

In Exercises 51-58, use the Binomial Theorem to write the binomial expansion. \((x+2)^3\)

Short Answer

Expert verified
The binomial expansion of \((x+2)^3\) is \(x^3+6x^2+12x+8\).

Step by step solution

01

Understanding the Binomial Theorem

The Binomial theorem is given by: \[(a+b)^n = \sum_{k=0}^{n} \binom{n}{k}a^{n-k}b^k\] where n is a nonnegative integer called the index, a and b are any real numbers, and \(\binom{n}{k}\) is a binomial coefficient. Here, a will be x, b will be 2, and n will be 3.
02

Applying the Binomial Theorem to Our Problem

Apply the binomial theorem by substituting the appropriate values into the equation. The first term is \(\binom{3}{0}x^{3}2^{0}\), the second term is \(\binom{3}{1}x^{2}2^{1}\), the third term is \(\binom{3}{2}x^{1}2^{2}\) and the fourth term is \(\binom{3}{3}x^{0}2^{3}\). When calculated, this gives: \(x^{3}+6x^{2}+12x+8\).
03

Simplifying the Expression

After fully expanding and simplifying the expression, you should end up with: \(x^3+6x^2+12x+8\).

Unlock Step-by-Step Solutions & Ace Your Exams!

  • Full Textbook Solutions

    Get detailed explanations and key concepts

  • Unlimited Al creation

    Al flashcards, explanations, exams and more...

  • Ads-free access

    To over 500 millions flashcards

  • Money-back guarantee

    We refund you if you fail your exam.

Over 30 million students worldwide already upgrade their learning with 91Ó°ÊÓ!

Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Binomial Theorem
The binomial theorem is a powerful tool in algebra that allows us to expand expressions that are raised to a power in a systematic way. It is expressed in the formula: \[(a+b)^n = \sum_{k=0}^{n} \binom{n}{k}a^{n-k}b^k\]Here, \( (a+b)^n \) represents a binomial raised to the n-th power. This theorem is especially useful when we deal with larger powers, as it provides a structured method to expand the expression.
  • Each term in the expansion is a product of three factors:
  • A binomial coefficient \( \binom{n}{k} \), which is a number that shows how many ways there are to choose \( k \) elements from a set of \( n \) elements.
  • The first base \( a \) raised to the power of \( n-k \).
  • The second base \( b \) raised to the power of \( k \).
Understanding the binomial theorem simplifies and enhances the process of expanding expressions, making it feasible to work with polynomials of higher degrees without manually multiplying each term repeatedly.
Binomial Coefficients
Binomial coefficients are key to the binomial theorem and are represented as \( \binom{n}{k} \), where:
  • \( n \) is the degree of the binomial.
  • \( k \) is the specific term in the binomial expansion.
These coefficients tell us the number of ways to choose \( k \) items from \( n \) items, which relates directly to combinatorial mathematics. The formula for the binomial coefficient is:\[\binom{n}{k} = \frac{n!}{k!(n-k)!}\]Here, \( ! \) denotes factorial, which is the product of all positive integers up to that number. For example, \( 3! = 3 \times 2 \times 1 = 6 \). This coefficient gives weight to each term in the expanded form of the binomial. Knowing how to calculate these values is crucial for constructing each term in the polynomial expansion.
Polynomial Expansion
Polynomial expansion refers to expressing a power of a binomial as a sum of terms. In the case of \((x+2)^3\), applying the binomial theorem gives us:\[x^3 + 6x^2 + 12x + 8\]Each term in this expansion originates from the combination of binomial coefficients and the relevant powers of the binomial's components, \( x \) and \( 2 \).
  • The first term \( x^3 \) comes from \( \binom{3}{0}x^3 \cdot 2^0 \).
  • The second term \( 6x^2 \) is derived from \( \binom{3}{1}x^2 \cdot 2^1 \).
  • The third term \( 12x \) results from \( \binom{3}{2}x^1 \cdot 2^2 \).
  • The final term \( 8 \) comes from \( \binom{3}{3}x^0 \cdot 2^3 \).
This methodical expansion process allows us to see how each term contributes to the overall polynomial. Understanding polynomial expansion through the lens of the binomial theorem aids greatly in simplifying complex algebraic expressions.

One App. One Place for Learning.

All the tools & learning materials you need for study success - in one app.

Get started for free

Most popular questions from this chapter

Draw a Venn diagram of the sets described. Of the positive integers less than 14 , set \(A\) consists of all prime numbers and set \(B\) consists of all even numbers.

Evaluate the expression. \({ }_{11} C_4\)

Consider a standard deck of 52 playing cards. The order in which the cards are dealt for a "hand" does not matter. a. How many different 5-card hands are possible? b. How many different 5-card hands have all 5 cards of a single suit?

Bayes' Theorem is given by $$ P(A \mid B)=\frac{P(B \mid A) \cdot P(A)}{P(B)} . $$ Use a two-way table to write an example of Bayes' Theorem.

Draw a Venn diagram of the sets described. Of the positive integers less than 15 , set \(A\) consists of the factors of 15 and set \(B\) consists of all odd numbers.
See all solutions

Recommended explanations on Math Textbooks

Probability and Statistics

Read Explanation

Geometry

Read Explanation

Applied Mathematics

Read Explanation

Logic and Functions

Read Explanation

Statistics

Read Explanation

Discrete Mathematics

Read Explanation
View all explanations

What do you think about this solution?

We value your feedback to improve our textbook solutions.

Study anywhere. Anytime. Across all devices.