Multiple ChoiceRationalize the denominator. ο»Ώ6+xβx\frac{6+\sqrt{x}}{-\sqrt{x}}βxβ6+xββο»Ώ344views5rank
Multiple ChoiceRationalize the denominator and simplify the radical expression.ο»Ώ75β6\frac{\sqrt7}{5-\sqrt6}5β6β7ββο»Ώ 342views3rank
Multiple ChoiceRationalize the denominator and simplify the radical expression. ο»Ώ2β32+3\frac{2-\sqrt3}{2+\sqrt3}2+3β2β3ββο»Ώ236views2rank
Textbook QuestionCONCEPT PREVIEW Perform the operations mentally, and write the answers without doing intermediate steps. β25 + β6411views
Textbook QuestionCONCEPT PREVIEW Perform the operations mentally, and write the answers without doing intermediate steps. β6 β’ β612views
Textbook QuestionCONCEPT PREVIEW Perform the operations mentally, and write the answers without doing intermediate steps. (β28 - β14) (β28 + β14)12views
Textbook QuestionUse the product and quotient rules for radicals to rewrite each expression. See Example 4. β3 β’ β512views
Textbook QuestionUse the product and quotient rules for radicals to rewrite each expression. See Example 4. β3 β’ β2716views
Textbook QuestionUse the product and quotient rules for radicals to rewrite each expression. See Example 4. β7β1612views
Textbook QuestionUse the product and quotient rules for radicals to rewrite each expression. See Example 4. β4β5013views
Textbook QuestionUse the product and quotient rules for radicals to rewrite each expression. See Example 4. β5 β2011views
Textbook QuestionUse the product and quotient rules for radicals to rewrite each expression. See Example 4. 30β10 5β210views
Textbook QuestionRationalize each denominator. See Example 8. β2 - β3 ββββ β6 - β514views
Textbook QuestionFor Individual or Group Work (Exercises 147 β 150)In calculus, it is sometimes desirable to rationalize a numerator. To do this, we multiply the numerator and the denominator by the conjugate of the numerator. For example, 6 - β2 = 6 - β2 β’ 6 + β2 = 36 - 2 = 34 = 17 . 4 4 6 + β2 4(6 + β2) 4(6 + β2) 2(6 + β2) Rationalize each numerator. 6 - β3 89views
Textbook QuestionFor Individual or Group Work (Exercises 147 β 150)In calculus, it is sometimes desirable to rationalize a numerator. To do this, we multiply the numerator and the denominator by the conjugate of the numerator. For example, 6 - β2 = 6 - β2 β’ 6 + β2 = 36 - 2 = 34 = 17 . 4 4 6 + β2 4(6 + β2) 4(6 + β2) 2(6 + β2) Rationalize each numerator. 2β10 + β7 3011views
Textbook QuestionCONCEPT PREVIEW Perform the indicated operation, and write each answer in lowest terms 2x 10x ββ β’ βββ 5 xΒ²13views
Textbook QuestionCONCEPT PREVIEW Perform the indicated operation, and write each answer in lowest terms 3 7 ββ + ββ x x14views
Textbook QuestionCONCEPT PREVIEW Perform the indicated operation, and write each answer in lowest terms 2x x ββ + ββ 5 410views
Textbook QuestionFind the domain of each rational expression. See Example 1. 3x + 7 βββββββ (4x + 2) (x - 1)10views
Textbook QuestionFind the domain of each rational expression. See Example 1. 12 ββββββ xΒ² + 5x + 612views
Textbook QuestionFind the domain of each rational expression. See Example 1. xΒ² - 1 ββββ x + 113views
Textbook QuestionFind the domain of each rational expression. See Example 1. xΒ³ - 1 ββββ x - 115views
Textbook QuestionWrite each rational expression in lowest terms. See Example 2. 8xΒ² + 16x 4xΒ²13views
Textbook QuestionWrite each rational expression in lowest terms. See Example 2. 3 (3 - t) ββββββ (t + 5) (t - 3)15views
Textbook QuestionWrite each rational expression in lowest terms. See Example 2. 8k + 16 9k + 1811views
Textbook QuestionWrite each rational expression in lowest terms. See Example 2. mΒ² - 4m + 4 mΒ² + m - 614views
Textbook QuestionWrite each rational expression in lowest terms. See Example 2. 8mΒ² + 6m - 9 16mΒ² - 916views
Textbook QuestionMultiply or divide, as indicated. See Example 3. 15pΒ³ 12p ββ β’ βββ 9pΒ² 10pΒ³12views
Textbook QuestionMultiply or divide, as indicated. See Example 3. 2k + 8 3k + 12 ββββ Γ· ββββ 6 213views
Textbook QuestionMultiply or divide, as indicated. See Example 3. xΒ² + x 25 ββββ β’ ββββ 5 xy + y12views
Textbook QuestionMultiply or divide, as indicated. See Example 3. 4a + 12 aΒ² - 9 βββββ Γ· βββββ 2a - 10 aΒ² - a - 2013views
Textbook QuestionMultiply or divide, as indicated. See Example 3. mΒ² + 3m + 2 mΒ² + 5m + 6 βββββββ Γ· ββββββββ mΒ² + 5m + 4 mΒ² + 10m + 2410views
Textbook QuestionMultiply or divide, as indicated. See Example 3. xz - xw + 2yz - 2yw 4z + 4w +xz +wx ββββββββββ β’ βββββββββ zΒ² - wΒ² 16 - xΒ²13views
Textbook QuestionAdd or subtract, as indicated. See Example 4. 1 2 4 ββ + ββ + ββ 6m 5m m11views
Textbook QuestionAdd or subtract, as indicated. See Example 4. 5 11 ββββ - βββ 12xΒ²y 6xy10views
Textbook QuestionAdd or subtract, as indicated. See Example 4. 17y + 3 -10y - 18 ββββ - βββββ 9y + 7 9y + 712views
Textbook QuestionAdd or subtract, as indicated. See Example 4. 1 1 βββ + βββ x + z x - z12views
Textbook QuestionAdd or subtract, as indicated. See Example 4. 3 1 βββ - βββ a - 2 2 - a15views
Textbook QuestionAdd or subtract, as indicated. See Example 4. x + y 2x βββ - βββ 2x - y y - 2x11views
Textbook QuestionAdd or subtract, as indicated. See Example 4. 4 1 12 ββββ + ββββββ - ββββ x + 1 xΒ² - x + 1 xΒ³ + 111views
Textbook QuestionAdd or subtract, as indicated. See Example 4. 3x x ββββββ - ββββ xΒ² + x - 12 xΒ² - 1610views
Textbook QuestionSimplify each complex fraction. See Examples 5 and 6. 4 - β 3 ββββ 2 β 912views
Textbook QuestionSimplify each complex fraction. See Examples 5 and 6. 5β8 + 2β3 ββββ 7β3 - 1β412views
Textbook QuestionSimplify each complex fraction. See Examples 5 and 6. ( -4β3 ) + 12β5 ββββββββ 1 - ( -4β3 ) (12β5)12views
Textbook QuestionSimplify each complex fraction. See Examples 5 and 6. 1 + 1 x ββββ 1 - 1 x14views
Textbook QuestionSimplify each complex fraction. See Examples 5 and 6. x y β + β y x ββββββ x y β - β y x12views
Textbook QuestionSimplify each complex fraction. See Examples 5 and 6. 1 1 βββ - ββ x + 1 x ββββββββ 1 ββ x13views
Textbook QuestionSimplify each complex fraction. See Examples 5 and 6. y + 3 4 ββββ - ββββ y y - 1 ββββββββββ y 1 βββ + ββ y - 1 y11views
Textbook Question(Modeling) Distance from the Origin of the Nile River The Nile River in Africa is about 4000 mi long. The Nile begins as an outlet of Lake Victoria at an altitude of 7000 ft above sea level and empties into the Mediterranean Sea at sea level (0 ft). The distance from its origin in thousands of miles is related to its height above sea level in thousands of feet (x) by the following formula. 7 - x Distance = βββββββ 0.639x + 1.75 For example, when the river is at an altitude of 600 ft, x = 0.6Β (thousand), and the distance from the origin is 7 - 0.6 Distance = βββββββββ β 3, which represents 3000 mi. 0.639(0.6) + 1.75 (Data from The World Almanac and Book of Facts.) What is the distance from the origin of the Nile when the river has an altitude of 7000 ft?14views