Assignment: Summer Assignment Part 1 of 8 Real Numbers and Their Properties. Student: Date:

Similar documents
Remember, you may not use a calculator when you take the assessment test.

My Math Plan Assessment #1 Study Guide

Chapter 5: Exponents and Polynomials

8/15/2018, 8:31 PM. Assignment: Math 0410 Homework150bbbbtsiallnew123. Student: Date: Instructor: Alfredo Alvarez Course: Math 0410 Spring 2018

MATH98 Intermediate Algebra Practice Test Form A

Algebra I Unit Report Summary

NAME DATE PERIOD. A negative exponent is the result of repeated division. Extending the pattern below shows that 4 1 = 1 4 or 1. Example: 6 4 = 1 6 4

Copyright 2012 UC Regents and ALEKS Corporation. ALEKS is a registered trademark of ALEKS Corporation. P. 1/6

1 of 32 4/24/2018, 11:38 AM

MATH Spring 2010 Topics per Section

MATH98 Intermediate Algebra Practice Test Form B

1 of 32 4/29/2018, 7:51 PM

Florida Math Curriculum (433 topics)

Check boxes of Edited Copy of Sp Topics (was 145 for pilot) Beginning Algebra, 3rd Ed. [open all close all] Course Readiness and

Beginning Algebra. 1. Review of Pre-Algebra 1.1 Review of Integers 1.2 Review of Fractions

Which one of the following is the solution to the equation? 1) 4(x - 2) + 6 = 2x ) A) x = 5 B) x = -6 C) x = -5 D) x = 6

My Math Plan Assessment #2 Study Guide

Review Topics. MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

Unit 1 Foundations of Algebra

Words to Review. Give an example of the vocabulary word. Numerical expression. Variable. Evaluate a variable expression. Variable expression

Math 101 Study Session Spring 2016 Test 4 Chapter 10, Chapter 11 Chapter 12 Section 1, and Chapter 12 Section 2

MATH 0960 ELEMENTARY ALGEBRA FOR COLLEGE STUDENTS (8 TH EDITION) BY ANGEL & RUNDE Course Outline

Ex.1 identify the terms and coefficients of the expression.

Math 0312 EXAM 2 Review Questions

Elementary Algebra

Words to Review. Give an example of the vocabulary word. Numerical expression. Variable. Variable expression. Evaluate a variable expression

Prep for the CSU ELM

OBJECTIVES UNIT 1. Lesson 1.0

Multiplication of Polynomials

LESSON 9.1 ROOTS AND RADICALS


Accessible Topic - Topics accessible to visually impaired students using a screen reader.

Sharpening your algebra skills: Summer practice for students. Updated 2009

Review Unit Multiple Choice Identify the choice that best completes the statement or answers the question.

Sections 7.2, 7.3, 4.1

Module 1: Whole Numbers Module 2: Fractions Module 3: Decimals and Percent Module 4: Real Numbers and Introduction to Algebra

Mini Lecture 1.1 Introduction to Algebra: Variables and Mathematical Models

6.1 Using Properties of Exponents 1. Use properties of exponents to evaluate and simplify expressions involving powers. Product of Powers Property

Algebra I Vocabulary Cards

Algebra I Vocabulary Cards

QUESTIONS 1-46 REVIEW THE OBJECTIVES OF CHAPTER 2.

Polynomials: Adding, Subtracting, & Multiplying (5.1 & 5.2)

Prealgebra and Elementary Algebra

5.1 Monomials. Algebra 2

Math 0320 Final Exam Review

{ independent variable some property or restriction about independent variable } where the vertical line is read such that.

MATH 080 Final-Exam Review

Virginia Unit-Specific Learning Pathways. Grades 6-Algebra I: Standards of Learning

High School Preparation for Algebra 1

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

Math 75 Mini-Mod Due Dates Spring 2016

MAT 1033 Final Review for Intermediate Algebra (Revised April 2013)

Summer Work for students entering PreCalculus

P.1: Algebraic Expressions, Mathematical Models, and Real Numbers

Florida Math 0022 Correlation of the ALEKS course Florida Math 0022 to the Florida Mathematics Competencies - Lower and Upper

TABLE OF CONTENTS. Introduction to Finish Line Indiana Math 10. UNIT 1: Number Sense, Expressions, and Computation. Real Numbers

Chapter R - Review of Basic Algebraic Concepts (26 topics, no due date)

Basic Math. Curriculum (358 topics additional topics)

Geometry - Summer 2016

Early Start: Worksheet #1 No calculator/phone use (11 16) (17 10)3

Study Guide for Math 095

Glossary. Glossary 981. Hawkes Learning Systems. All rights reserved.

Pre Algebra and Introductory Algebra

Pearson Learning Solutions

= 9 = x + 8 = = -5x 19. For today: 2.5 (Review) and. 4.4a (also review) Objectives:

PRE-ALGEBRA SUMMARY WHOLE NUMBERS

Summer Work for students entering PreCalculus

27 Wyner Math 2 Spring 2019

Unit 13: Polynomials and Exponents

Level Unit Chapter Lesson ChapterTitle LessonTitle Introduction Introduction How to take the placement tests How to take the

Chapter 2. Real Numbers and Monomials. 8/2016 LSowatsky 1

= (Type exponential notation with positive exponents)

( )( ) Algebra I / Technical Algebra. (This can be read: given n elements, choose r, 5! 5 4 3! ! ( 5 3 )! 3!(2) 2

Algebra 1B Final Review

Algebra II Vocabulary Word Wall Cards

Pre Algebra. Curriculum (634 topics)

Check boxes of Edited Copy of Sp Topics (was 261-pilot)

Section September 6, If n = 3, 4, 5,..., the polynomial is called a cubic, quartic, quintic, etc.

FINAL REVIEW MATH 6 STUDENT NAME MATH TEACHER

correlated to the Utah 2007 Secondary Math Core Curriculum Algebra 1

Prep for College Algebra

Rational Numbers, Irrational Numbers, Whole Numbers, Integers, Natural Numbers

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. 3 x 9 D) 27. y 4 D) -8x 3 y 6.

5. Simplify completely. (Assume any variable in the denominator is nonzero.)

Elementary Algebra

California Algebra 1

Prep for College Algebra with Trigonometry

R1: Sets A set is a collection of objects sets are written using set brackets each object in onset is called an element or member

Welcome to IB MATH SL1!

Part 2 - Beginning Algebra Summary

MA094 Part 2 - Beginning Algebra Summary

Chapter 3: Factors, Roots, and Powers

1201 Common Mathematics Assessment - June 2013 Answer Sheet. Name

Ready To Go On? Skills Intervention 7-1 Integer Exponents

HONORS GEOMETRY Summer Skills Set

Foundations of Mathematics

Foundations of High School Math

Chapter R - Basic Algebra Operations (94 topics, no due date)

NOTES. [Type the document subtitle] Math 0310

Using the Laws of Exponents to Simplify Rational Exponents

Transcription:

Student: Date: Assignment: Summer Assignment Part of 8 Real Numbers and Their Properties. Identify to which number groups (natural numbers, whole numbers, integers, rational numbers, real numbers, and irrational numbers) does each of the following numbers belong. (a) 0 (b) 22 (c) 5 2 (d) 4 (e) 3 (f) 4.49 (a) Choose the correct answer below. A. Rational numbers B. Irrational numbers C. Whole numbers D. Integers E. Natural numbers F. Real numbers (b) Choose the correct answer below. A. Whole numbers B. Irrational numbers C. Integers D. Real numbers E. Rational numbers F. Natural numbers (c) Choose the correct answer below. A. Integers B. Irrational numbers C. Rational numbers D. Natural numbers E. Real numbers F. Whole numbers (d) Choose the correct answer below. A. Whole numbers B. Irrational numbers C. Integers D. Rational numbers E. Natural numbers F. Real numbers (e) Choose the correct answer below. A. Irrational numbers B. Whole numbers C. Integers D. Real numbers

E. Rational numbers F. Natural numbers (f) Choose the correct answer below. A. Irrational numbers B. Whole numbers C. Real numbers D. Integers E. Rational numbers F. Natural numbers 2. Which of the following are rational numbers? 4, 25, 0.2, 7, 3 3, 5 2,, 3 7, 0.22576259... The rational numbers in the list are. (Use a comma to separate answers as needed.) 3. Evaluate 5 4. 5 4 = 4. 5. Evaluate the expression. ( 3) 2 Evaluate the expression. 4 3 3 ( 3) 2 = (Simplify your answer. Type an integer.) 4 3 3 = 6. Evaluate the expression. 5(8 7) + ( 4)(2) 2 5(8 7) + ( 4)(2) 2 = 7. Evaluate the expression for p = 7, q = 8, and r =. 2 2 p 4q + r The answer is. 8. Evaluate the expression if p = 2, q = 4, and r = 7. q + r q p q + r q p = (Type an integer or a simplified fraction.)

9. Evaluate the expression for p = 4 and r = 2. 3p + 2(4 + p) 3 r + 9 The answer is. (Type an integer or a simplified fraction.) 0. Name the property illustrated by the following sentence. w w = Choose the property that is illustrated by the sentence. A. Multiplicative Inverse Property B. Distributive Property C. Associative Property D. Commutative Property. Evaluate the absolute value expression. 3 2 3 2 = 2. Find the value of 8. The value is. 3. Let x = 6 and y = 5. Evaluate the expression. 7x + 2y If x = 6 and y = 5, then 7x + 2y =. 4. In the Golf Tournament, Zach won the final round with a score that was 2 under par, while the previous year's tournament winner, John, finished with a finalround score that was 4 over par. Using 2 to represent 2 under par and + 4 to represent 4 over par, find the difference between these scores (in either order) and take the absolute value of this difference. The absolute value of the difference between scores 2 under par and 4 over par is. 5. The Blood Alcohol Concentration (BAC) of a person who has been drinking is given by the following expression. number of oz % alcohol 0.075 body wt in lb hr of drinking 0.05 In 8 hours, a 40-lb person has drunk 4 6-oz beers ( 64 oz), each having a 5.5% alcohol content. Find this person's BAC. The person's BAC is. (Round to the nearest thousandth.)

Student: Date: Assignment: Summer Assignment Part 2 of 8 Laws of Exponents. 2. Use the product rule to simplify. ( 5x 2 )( 4x 5 ) 3 6 c c c 3 6 c c c = (Type exponential notation with positive exponents.) ( 5x 2 )( 4x 5 ) = (Simplify the coefficient. Type using an exponent.) 3. 4. 2 9 3 3 7x 5 y 7x 4 y 3 2 9 3 3 = (Simplify your answer. Type exponential notation with positive exponents.) 7x 5 y 7x 4 y 3 = 5. 6. 2 3 3 Simplify. y 5 7 z 7 2 3 3 = (Simplify your answer. Type exponential notation with positive exponents.) y 5 7 z 7 = (Simplify your answer. Use positive exponents only.) 7. Assume the denominator does not equal 0. 3x 7 4y 6 3 3x 7 4y 6 3 = 8. Simplify each expression. Assume variables represent nonzero real numbers. x2 y 6 z 0 x2 y 6 z 0 =

9. Match each expression in Column I with its equivalent in Column II. (a) Which of the following expressions is equivalent to 7 0? I II 7 0 0 7 0 ( 7) 0 ( 7) 0 7 7 A. 7 B. 0 C. D. E. 7 (b) Which of the following expressions is equivalent to 7 0? A. B. 7 C. 7 D. 0 E. (c) Which of the following expressions is equivalent to ( 7) 0? A. B. 0 C. 7 D. E. 7 (d) Which of the following expressions is equivalent to ( 7) 0? A. B. 7 C. 0 D. E. 7 0. 2 2 Explain why x + x is not equivalent to x 4. Choose the correct answer below. A. m n m n The product rule states that a a = a. B. m n m + n The product rule states that a a = a. C. m n m n The product rule states that a + a = a. D. m n m + n The product rule states that a + a = a.

Student: Date: Assignment: Summer Assignment Part 3 of 8 Polynomials. Identify the expression as a polynomial or not a polynomial. For a polynomial, give the degree and identify it as a monomial, binomial, trinomial, or none of these. 5x 3 A. The expression is a polynomial. Its degree is and it is a monomial. B. The expression is a polynomial. Its degree is and it is a trinomial. C. The expression is a polynomial. Its degree is and it is a binomial. D. The expression is a polynomial. Its degree is and it is none of these. E. The expression is not a polynomial. 2. Identify the expression as a polynomial or not a polynomial. For a polynomial, give the degree and identify it as a monomial, binomial, trinomial, or none of these. 4 2 9z 7z + 8 A. The expression is a polynomial. Its degree is and it is a monomial. B. The expression is a polynomial. Its degree is and it is a binomial. C. The expression is a polynomial. Its degree is and it is a trinomial. D. The expression is a polynomial. Its degree is and it is none of these. E. The expression is not a polynomial. 3. Add. ( 6x 2 2 x + 0 ) + ( 5x 2 + 9x 53) The answer is. 4. Find the difference. 2 2 6 4y 8y + 2 8 2y 5y + 8 2 2 6 4y 8y + 2 8 2y 5y + 8 = 5. Find the sum or difference. 4 2 3 2 2 6m 8m + m 9m + 7m + 4m + m m 4 2 3 2 2 6m 8m + m 9m + 7m + 4m + m m =

6. Find the product. (3v 5)(4v + 7) (3v 5)(4v + 7) = 7. Find the product. 2 3 2 9x 2x + 6x 2x + 9 2 3 2 9x 2x + 6x 2x + 9 =. 8. Use the distributive property to find the product. (y 6)( 7y 2 + 6 y + 4) (y 6)( 7y 2 + 6 y + 4 ) = 9. Use the formula for a binomial squared to multiply. (2x + 9y) 2 (2x + 9y) 2 = 0. Find the product. 9t 3r 2 2 9t 3r 2 2 =. Find the product. (k + 2) 3 (k + 2) 3 = 2. Multiply. ( p 2) 4 ( p 2) 4 = 3. Multiply. (5b + 7)(5b 7) (5b + 7)(5b 7) =

4. Perform the division. 36x 9 96x 6 + 32x 5 84x 3 2x 3 36x 9 96x 6 + 32x 5 84x 3 2x 3 =. 5. An amazing formula from ancient mathematics was used by the Egyptians to find the volume of the frustum of a square pyramid, as shown in the figure. Its volume is given by V = h 3 a 2 + ab + b 2 where b is the length of the base, a is the length of the top, and h is the height., a. When a pyramid was partially completed to a height h of 204 ft, b was 760 ft, and a was 36 ft. Calculate its volume at this stage of construction. The volume is ft 3. (Round to the nearest integer as needed.) b. Try to visualize the figure if a = b. What is the resulting shape? Find its volume. The resulting shape is () The volume of the obtained figure is V =. c. Let a = b in the Egyptian formula and simplify. Are the results the same? No Yes () rectangular box with a square base. cube. sphere.

Student: Date: Assignment: Summer Assignment Part 4 of 8 Factoring Polynomials. Factor out the greatest common factor from the polynomial. 7x + 4 7x + 4 = 2. Factor out the greatest common factor from the polynomial. 9xy 7xy 5 9xy 7xy 5 = 3. Factor out the greatest common factor from the polynomial. 4 5 3 6 4p q 2p q 4 5 3 6 4p q 2p q = 4. Factor the polynomial using the greatest common factor. If there is no common factor other than and the polynomial cannot be factored, so state. 2 7 5 6x y 6xy Select the correct choice below and fill in any answer boxes in your choice. A. 2 7 5 6x y 6xy = (Type your answer in factored form.) B. The expression is not factorable. 5. Factor the polynomial by grouping. 5 5 4x + 2 ax 3a 5 5 4x + 2 ax 3a = 6. Factor the polynomial by grouping. 2 2 2 2 p q 24 3q + 8p 2 2 2 2 p q 24 3q + 8p = 7. Factor the trinomial, if possible. 2 6v 23v + 0 Select the correct choice below and fill in any answer boxes within your choice. A. 2 6v 23v + 0 = (Type your answer in factored form.) B. The polynomial is prime.

8. Factor the polynomial, if possible. 2 3r + 0r + 8 Select the correct choice below and fill in any answer boxes within your choice. A. 2 3r + 0r + 8 = (Type your answer in factored form.) B. The polynomial is prime. 9. Match each polynomial in Column I with its factored form in Column II. I II 2 2 x + 2xy + 36y (x + 6y)(x 6y) 2 2 x 2xy + 36y (x + 6y) 2 2 2 x 36y (x 6y) 2 2 2 36y x (6y + x)(6y x) 2 2 Choose the correct factoring of x + 2xy + 36y below. A. (x + 6y)(x 6y) B. (x + 6y) 2 C. (6y + x)(6y x) D. (x 6y) 2 2 2 Choose the correct factoring of x 2xy + 36y below. A. (x 6y) 2 B. (6y + x)(6y x) C. (x + 6y)(x 6y) D. (x + 6y) 2 2 2 Choose the correct factoring of x 36y below. A. (x + 6y) 2 B. (x + 6y)(x 6y) C. (x 6y) 2 D. (6y + x)(6y x) 2 2 Choose the correct factoring of 36y x below. A. (x 6y) 2 B. (x + 6y) 2 C. (6y + x)(6y x) D. (x + 6y)(x 6y)

0. Factor the polynomial. 36r 2 25 Select the correct choice below and fill in any answer boxes within your choice. A. 36r 2 25 = (Type your answer in factored form.) B. The polynomial is prime.. Factor the polynomial. 4 2 49s 8t A. 4 2 49s 8t = (Type your answer in factored form. Factor completely.) B. The polynomial is prime. 2. Factor the polynomial. (y + 8) 3 52 A. (y + 8) 3 52 = (Simplify your answer. Type your answer in factored form.) B. The polynomial is prime. 3. Factor the polynomial by substitution. t 4 + 8t 2 + 77 A. t 4 + 8t 2 + 77 = B. The polynomial is prime. 4. Factor the following binomial completely. 2 4x + 25 2 A. 4x + 25 = B. 2 4x + 25 is prime.

5. Find all values of b that will make the polynomial a perfect square trinomial. 2 25z + bz + 6 b = (Use a comma to separate answers as needed.)

Student: Date: Assignment: Summer Assignment Part 5 of 8 Rational Expressions. Find the domain of the rational expression. x + 5 x 7 A. The domain is x x. (Type an integer or a simplified fraction. Use a comma to separate answers as needed. ) B. The domain is the set of all real numbers. 2. Find the domain of the rational expression. 7x + 8 (2x + 6)(x 7) What is the domain? x x (Use a comma to separate answers. Type an integer or a fraction.) 3. Find the domain of the rational expression. y 2 2 y + 7 A. { y y } (Use a comma to separate answers as needed. Type the integers or a simplified fractions.) B. Set of all real numbers 4. Write the rational expression in lowest terms. 8x 2 + 24x 2x 2 What is the expression in lowest terms? 5. 6. Write the rational expression in lowest terms. 2y 4 5y 0 Write the rational expression in lowest terms. 2y 4 5y 0 = x 2 9x + 20 x 2 + x 30 x 2 9x + 20 x 2 = + x 30

7. Write the rational expression in lowest terms. 2x 2 7x + 30 6x 2 5x 25 2x 2 7x + 30 6x 2 = 5x 25 8. Perform the subtraction. 2 9b a a 2 2 9b a a 2 = 9. Perform the subtraction. 5 8x 2 y 6xy 5 8x 2 = y 6xy 0. Perform the addition. 5 5 + x + y x y 5 5 + x + y x y =. Perform the subtraction. x + y 4x y 5x y 4x x + y 4x y 5x y 4x = 2. Perform the subtraction. 7x x 2 + 2x 24 x x 2 36 7x x 2 + 2x 24 x x 2 = 36

3. x + 8 x x x + 8 x x = 4. + 4 b 4 + b + 4 b 4 + b = 5. w 3 z 3 w 2 2wz + z 2 w 3 z 3 = w 2 2wz + z 2 (Use positive exponents only. Use integers or fractions for any numbers in the expression.)

Student: Date: Assignment: Summer Assignment Part 6 of 8 Rational Exponents. Identify the set as finite or infinite. Then determine whether 2 is an element of the set. { 5, 6, 7,..., 6} Identify the set as finite or infinite. finite infinite Is 2 an element of the set? No Yes 2. Match each expression in Column I with its equivalent expression in Column II. Choices may be used once, more than once, or not at all. I (a) 3 2 A. 9 II (b) 3 2 B. 9 (c) ( 3) 2 C. 9 (d) ( 3) 2 D. 9 Match expression (a) in Column I with its equivalent expression in Column II. (Type A, B, C, or D. Use a comma to separate answers as needed.) Match expression (b) in Column I with its equivalent expression in Column II. (Type A, B, C, or D. Use a comma to separate answers as needed.) Match expression (c) in Column I with its equivalent expression in Column II. (Type A, B, C, or D. Use a comma to separate answers as needed.) Match expression (d) in Column I with its equivalent expression in Column II. (Type A, B, C, or D. Use a comma to separate answers as needed.) 3. 4. Evaluate this expression. ( 3) 3 = ( 3) 3 Write the expression with only positive exponents and evaluate if possible. Assume all variables represent nonzero real numbers. (5x) 2 (5x) 2 = (Simplify your answer. Use integers or fractions for any numbers in the expression)

5. Use the quotient rule to simplify. 2 8 2 3 2 8 = 2 3 (Give your answer using positive exponents. Leave your answer in exponential notation.) 6. Divide and simplify. x 20 x 7 x 20 x 7 = (Simplify your answer. Type exponential notation with positive exponents.) 7. Perform the indicated operations. Write the answer using only positive exponents. Assume all variables represent nonzero real numbers. 2r 8 2r 8 5r 5r = (Simplify your answer. Use integers or fractions for any numbers in the expression) 8. Perform the indicated operation. Assume all variables represent nonzero real numbers. 6a 4 a 2 5 a 2 6a 4 a 2 5 a 2 = (Simplify your answer. Type exponential notation with positive exponents.) 9. Perform the indicated operation. Assume all variables represent nonzero real numbers. (0x) 3 0x 2 2 0 3 x 2 2 (0x) 3 0x 2 2 0 3 x 2 2 = (Simplify your answer. Use positive exponents only. Use integers or fractions for any numbers in the expression.) 0. 6 / 2 6 / 2 = (Simplify your answer. Type an integer or a fraction.)

. 6 / 4 6 / 4 = 2. 729 8 / 3 / 3 729 = 8 (Simplify your answer. Type an integer or an improper fraction.) 3. Evaluate the expression. ( 4) / 2 Choose the correct choice below and, if necessary, fill in the answer box to complete your choice. A. ( 4) / 2 = B. This expression is not a real number 4. Perform the indicated operation. Assume all variables represent positive real numbers. 36 5 / 2 36 5 / 2 = (Simplify your answer. Type an integer or a fraction.) 5. Perform the indicated operations. / 3 5 / 3 6 6 / 3 5 / 3 6 6 =

Student: Date: Assignment: Summer Assignment Part 7 of 8 Radical Expressions. Identify the set as finite or infinite. Then determine whether 0 is an element of the set. { 3, 4, 5,..., 4} Identify the set as finite or infinite. infinite finite Is 0 an element of the set? Yes No 2. 3 Write 343 using exponents and evaluate. 3 343 using exponents is written as. (Use positive exponents only. Do not simplify. Use integers or fractions for any numbers in the expression.) Evaluate 3 343. Select the correct choice below and, if necessary, fill in the answer box within your choice. A. 3 343 = B. The root is not a real number. 3. 5 Write 024 using exponents and evaluate. 5 024 using exponents is written as. (Use positive exponents only. Do not simplify. Use integers or fractions for any numbers in the expression.) Evaluate 5 024. Select the correct choice below and, if necessary, fill in the answer box within your choice. A. 5 024 = B. The root is not a real number. 4. Write in radical form. Assume all variables represent positive real numbers. 2 3 m 2 3 m = 5. Write in exponential form. Assume all variables represent positive real numbers. 6 x 7 6 x 7 = (Simplify your answer. Type exponential notation with positive exponents.)

6. Write in exponential form. Assume all variables represent positive real numbers. 8 2p 3 8 2p 3 = (Simplify your answer. Type your answer using exponential notation. Use integers or fractions for any numbers in the expression.) 7. Assume all variables represent positive real numbers. x 9 y 7 z 2 Select the correct choice below and fill in any answer boxes in your choice. A. x 9 y 7 z 2 = (Simplify your answer. Type an exact answer, using radicals as needed.) B. The expression cannot be simplified. 8. Assume all variables represent positive real numbers. 4 gh 9 25r 4 Select the correct choice below and fill in any answer boxes in your choice. A. 4 gh 9 25r 4 = (Simplify your answer. Type an exact answer, using radicals as needed.) B. The expression cannot be simplified. 9. Assume all variables represent positive real numbers. 4 0 3 4 4 3 8x y 6x y Select the correct choice below and fill in any answer boxes in your choice. A. The simplified form is. (Simplify your answer. Type an exact answer, using radicals as needed.) B. The expression cannot be simplified.

0. 3 7 + 8 0 Select the correct choice below and fill in any answer boxes in your choice. A. 3 7 + 8 0 = (Simplify your answer. Type an exact answer, using radicals as needed.) B. The expression cannot be simplified.. 5 + 2 2 Select the correct choice below and fill in any answer boxes in your choice. A. 5 + 2 2 = (Simplify your answer. Type an exact answer, using radicals as needed.) B. The expression cannot be simplified. 2. 4 64 4 4 4 64 4 4 = 3. 5 60 5 5 5 60 5 5 = 4. 4 6 4 8 4 8 4 6 4 8 4 8 =

5. 3927 The Hindu mathematician Bhaskara used as an approximation for π circa A.D. 50. 250 In which decimal place does this value first differ from π? Use your calculator to answer this question. Assume π = 3.4592654. It first differs in the () decimal place. () fourth third fifth

Student: Date: Assignment: Summer Assignment Part 8 of 8 Solving Equations and Inequalities. Solve the equation. 3x 5 = 7 x + The solution set is. 2. Solve the equation. 8( 4 x + 6 ) = (x + 7) The solution set is. (Simplify your answer. Type an integer or a fraction.) 3. Solve the equation for x. 3(x a) + b = 4x + a x = 4. A driver averaged 44 miles per hour and took 7 hours to travel between two cities. What is the distance between the two cities? The distance between the two cities is miles. 5. A rectangle has a width of 57 centimeters and a perimeter of 230 centimeters. What is the rectangle's length? The length is cm. 6. 7. 8. Solve the equation by the zero factor property. r 2 7r + 2 = 0 Find all solutions by factoring. 3c 2 22c = 6 Solve the equation by using the square root property. 20 t 2 = 0 The solution set is. (Use a comma to separate answers as needed.) The solution set is. (Simplify your answer. Type an integer or a fraction. Use a comma to separate answers as needed.) The solution set is. (Simplify your answer. Type exact answers, using radicals as needed. Use a comma to separate answers as needed.) 9. The area of a rectangular wall of a barn is 208 square feet. Its length is 0 feet longer than twice its width. Find the length and width of the wall of the barn. width = feet length = feet

0. Cynthia Besch wants to buy a rug for a room that is 5 ft wide and 20 ft long. She wants to leave a uniform strip of floor around the rug. She can afford to buy 76 square feet of carpeting. What dimensions should the rug have? 76 5 ft 20 ft The dimensions of the rug should be (Use a comma to separate answers as needed.) ft.. Sales of SUVs (sport utility vehicles) in the United States (in millions) for the years 990 999 can be modeled by the quadratic equation shown below. 2 y = 0.06x + 0.24x + 0.787 Here x = 0 represents 990, x = represents 99, and so on. Use the model to approximate sales in 999. Sales in 999 were approximately million SUVs. (Round to the nearest tenth as needed.) 2. Solve the equation. 4x + 5 5x = x 4 x 3 A. The solution set is. (Simplify your answer. Use a comma to separate answers as needed.) B. The solution is the empty set. 3. Solve the equation. x 7 = + 8 x 7 x 7 A. The solution set is. (Simplify your answer. Use a comma to separate answers as needed.) B. The solution is the empty set. 4. Solve the equation. 2x 7 x = x 2 5 A. The solution set is. (Simplify your answer. Use a comma to separate answers as needed.) B. The solution is the empty set.

5. At a dairy plant, a milk tank can be filled in 4 hours (using the in valve). Using the out valve, the tank can be emptied in 8 hours. If both valves are open and milk is being pumped into the tank, how long will it take to fill the tank? It will take hours to fill the tank. 6. Solve the equation. x = 5 x + 4 Select the correct choice below and, if necessary, fill in the answer box to complete your choice. A. The solution set is. (Simplify your answer. Use a comma to separate answers as needed.) B. There is no solution. 7. Write the inequality in interval notation. 9 < x 2 Write the solution in interval notation. 8. Solve the inequality. Write the solution set in interval notation. 7 2 y + 3 9 The inequality in interval notation is. 9. Solve the quadratic inequality. Write the solution set in interval notation. 2 x 9x 20 2 A. The solution set is. (Use integers or fractions for any numbers in the expression.) B. The solution set is the empty set. 20. Solve the quadratic inequality. Write the solution set in interval notation. 2 x + 5x + 8 < 0 The solution set is. (Use integers or fractions for any numbers in the expression.) The solution set is the empty set.

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback