The sat skill exam 4 potx

16. A wealthy businessperson bought charity auction tickets that were numbered consecutively, 5,027 through 5,085. How many tickets did she purchase? 17. For some value of x,5(x + 2) = y. After the value of x is increased by 3, 5(x + 2) = z. What is the value of z – y? 18. When a positive integer k is divided by 6, the remainder is 3. What is the remainder when 5k is divided by 3? 19. If (x – 1)(x – 3) = –1, what is a possible solution for x? 20. If 4 times an integer x is increased by 10, the result is always greater than 18 and less than 34. What is the least value of x? 21. A string is cut into two pieces that have lengths in the ratio 4:5. If the length of the string is 45 inches, what is the length of the longer string? 22. If x – 8 is 4 greater than y + 2, then by how much is x + 12 greater than y? 23. A brand of paint costs $14 a gallon, and 1 gallon of paint will cover an area of 150 square feet. What is the minimum cost of paint needed to cover the 4 walls of a rectangular room that is 12 feet wide, 16 feet long, and 8 feet high? 24. How many degrees does the minute hand of a clock move from 5:25 p.m. to 5:47 p.m. of the same day? 25. If the operation ∇ is defined by the equation x∇y = 3x + 3y, what is the value of 3∇4? 26. What is the value of s below? = When multiplying two 2 × 2 matrices, use the formulas: × = 27. If x 5 = 243, what is the value of x –3 ? 28. In the diagram below, AB ៮ is tangent to circle C at point B. What is the radius of circle C if AC ៮ is 20? 29. Given f(x) = 3x 2 + 2 –x + ᎏ 3 8 ᎏ , find f(3). 30. For the portion of the graph shown, for how many values of x does f(x) = 0? x y 1234567 1 2 3 4 5 –1 –2 –3 –1–2–3–4–5–6–7 A B C 16 [ a 1 b 1 + a 2 b 3 a 1 b 2 + a 2 b 4 ] a 3 b 1 + a 4 b 3 a 3 b 2 + a 4 b 4 [ b 1 b 2 ] b 3 b 4 [ a 1 a 2 ] a 3 a 4 [ qr ] st [ 1 8 ] 2 1 [ 5 8 ] 4 1 –THE SAT MATH SECTION– 107 5658 SAT2006[04](fin).qx 11/21/05 6:44 PM Page 107  Math Pretest Answers 1. b. To figure out by what amount quantity A exceeds quantity B, calculate A – B: (8 × 25) – (15 × 10) = 200 – 150 = 50. 2. d. Consecutive multiples of 4, such as 4, 8, and 12, always differ by 4. If k – 1 is a multiple of 4, then the next larger multiple of 4 is obtained by adding 4 to k – 1, which gives k – 1 + 4 or k + 3. 3. d. Since 2 x + 1 = 32 and 32 = 2 5 , then 2 x + 1 = 2 5 . Therefore, x + 1 = 5, so (x + 1) 2 = 5 2 = 25. 4. c. If (x + 7)(x – 3) = 0, then either or both factors may be equal to 0. If x + 7 = 0, then x = –7. Also, if x – 3 = 0, then x = 3. Therefore, x may be equal to –7 or 3. 5. d. The phrase “3 less than 2 times x” means 2x minus 3 or 2x – 3. 6. c. When the recipe is adjusted from 4 to 8 serv- ings, the amounts of salt and pepper are each doubled; however, the ratio of 2:3 remains the same. 7. d. In a triangle, the length of any side is less than the sum of the lengths of the other two sides. If the lengths of two sides are 5 and 9, and the length of the third side is x, then ■ x < 5 + 9 or x < 14 ■ 5 < x + 9 ■ 9 < x + 5 or 4 < x Since x < 14 and 4 < x,4 < x < 14. 8. c. If the circumference of a circle is 10π, its diameter is 10 and its radius is 5. Therefore, its area is π(5 2 ) = 25π. 9. a. The total number of different sundaes that the ice cream parlor can make is the number of different flavors of ice cream times the number of different flavors of syrup times the number of different toppings: 6 × 3 × 4 = 72. 10. b. Following the given rule for the sequence up to and including 55: 1, 1, 2, 3, 5, 8, 13, 21, 34, 55. Since 10 numbers are listed, n = 10. 11. d. Notice that: term 1 = 9 term 2 = 9 × 5 1 term 3 = 9 × 5 2 term 4 = 9 × 5 3 This question asks you for the eighth term, so you know that term 8 must equal 9 × 5 7 = 9 × 78,125 = 703,125. 12. c. The area of the big circle is πr 2 = 64π, and the area of the shaded circle is πr 2 = 4π.So, the probability of hitting the shaded part is 4π out of 64π, which reduces to 1 out of 16. 13. b. The symbol | means intersection. Consider Set A | Set C. This yields positive integers that are both prime and even. There is only one such positive integer: 2. Statement I is not true because the intersection of the two sets does not yield the empty set (Ø). Now consider statement II. We already saw that Set A | Set C contains one element. Set A | Set B contains all positive integers that are prime and odd, such as 3, 5, 7, and so on. Set A | Set B does contain more elements than Set A | Set C, so statement II is true. Set B | Set C does yield Ø, so statement III is true. Thus, the correct answer is b. 14. d. Rearrange the given equation into the form y = mx + b, and use the value of b to find the y value of the (x,y) coordinates of the intercept; 3x – y = 8 becomes 3x – 8 = y, which is equivalent to y = 3x – 8. Thus, b = –8. The y-intercept is then (0,–8). 15. c. Recall that cos θ = ᎏ H A yp d o ja t c e e n n u t se ᎏ . Using the knowledge that cos 60 = ᎏ 1 2 ᎏ , we know that h is equal to 12.5 × 2, or 25. 16. 59. If A and B are positive integers, then the number of integers from A to B is (A – B) + 1. Therefore, the number of tickets is equal to (5,085 – 5,027) + 1 = 59. –THE SAT MATH SECTION– 108 5658 SAT2006[04](fin).qx 11/21/05 6:44 PM Page 108 17. 15. If the value of x is increased by 3, then the value of y is increased by 15. After x is increased by 3, 5(x + 2) = z. Therefore, the value of z – y = 15. 18. 0. When k is divided by 6, the remainder is 3, so let k = 9. Then 5k = 45 and 45 is divided evenly by 3. Therefore, the remainder is 0. 19. 2. If (x – 1)( x – 3) = –1, then x 2 – 4x + 3 = –1, and therefore, x 2 – 4x + 4 = 0. After factor- ing, this equation results in (x – 2)(x – 2) = 0. Hence, a possible value is 2. 20. 3. This problem can be written as 18 < 4x + 10 < 34. Subtracting 10 from both sides gives the equation 8 < 4x < 24. Dividing by 4 will result in the following: 2 < x < 6. Since 2 is less than x, the least integer value for x is 3. 21. 25. Since the lengths of the two pieces of string are in the ratio 4:5, let 4x and 5x represent their lengths. Therefore, 4x + 5x = 45, 9x = 45, and x = 5. Hence, the longest piece of string is (5)(5) = 25. 22. 26. If x – 8 is 4 greater than y + 2, then x – 8 = y + 2 + 4. x – 8 = y + 6 x = y + 14 Since x + 12 = (y + 14) + 12 = y + 26, then x + 12 is 26 greater than y. 23. 42. First, find the sum of the areas of the four walls: 2(12 × 8) + 2(16 × 8) = 448. Since 1 gallon of paint provides coverage of an area 150 square feet, simply divide 448 by 150, which results in 2.986 ෆ , meaning a minimum of 3 gallons of paint is needed. Since the paint costs $14 a gallon, to find the cost of the paint, simply multiply 14 by 3 = $42. 24. 132. From 5:25 p.m. to 5:47 p.m., the minute hand moves 22 minutes. Since there are 60 minutes in one hour, 22 minutes represents ᎏ 2 6 2 0 ᎏ of the clock circle. Because there are 360 degrees in a circle, multiply ᎏ 2 6 2 0 ᎏ by 360, or 22 × 6, to get 132. 25. 21. Since x∇y = 3x + 3y, then 3∇4 = 3(3) + 3(4) = 9 + 12 = 21. 26. 6. To find the value of s, we use the formula that corresponds to the position of s. The formula is a 3 b 1 + a 3 b 4 = (4)(1) + (1)(2) = 4 + 2 = 6. 27. ᎏ 2 1 7 ᎏ . 243 = 3 × 3 × 3 × 3 × 3. Since 3 5 = 243, x is equal to 3. Next, find 3 –3 = ᎏ 3 1 3 ᎏ = ᎏ 2 1 7 ᎏ . 28. 12. Since AB ៮ is tangent to circle C at point B,we know (by definition) that it is perpendicular to the radius of the circle. The radius is BC ៮ . By constructing a right triangle with sides AB ៮ , AC ៮ , and BC ៮ , we can use a Pythagorean triplet to solve for BC ៮ (the radius). Using the double of the Pythagorean triplet 6-8-10 (6 2 + 8 2 = 10 2 ), we can see that we have a 12-16-20 right triangle. The radius, BC ៮ , is 12. Note that the popular Pythagorean triplets are 3-4-5, 6-8-10, and 5-12-13. 29. 27.5. Substitute 3 for x in the function f(x) = 3x 2 + 2 –x + ᎏ 3 8 ᎏ to get f(3) = 3(3) 2 + 2 –3 + ᎏ 3 8 ᎏ = 3(9) + ᎏ 2 1 3 ᎏ + ᎏ 3 8 ᎏ = 27 + ᎏ 1 8 ᎏ + ᎏ 3 8 ᎏ = 27 + ᎏ 4 8 ᎏ = 27.5. 30. 3. For the portion of the graph shown, there are three values of x where f(x) = 0. x y 1234567 1 2 3 4 5 –1 –2 –3 –1–2–3–4–5–6–7 A B C 16 20 –THE SAT MATH SECTION– 109 5658 SAT2006[04](fin).qx 11/21/05 6:44 PM Page 109  Arithmetic Review Numbers All of the numbers you will encounter on the SAT are real numbers: ■ Whole numbers—Whole numbers are also known as counting numbers: 0, 1, 2, 3, 4, 5, 6, ■ Integers—Integers are both positive and negative whole numbers including zero: 3,–2,–1,0,1, 2,3, ■ Rational numbers—Rational numbers are all numbers that can be written as fractions ( ᎏ 2 3 ᎏ ), terminating decimals (.75), and repeating decimals .6 ෆ 6 ෆ 6 ෆ ■ Irrational numbers—Irrational numbers are numbers that cannot be expressed as terminating or repeating decimals: π or ͙2 ෆ . Comparison Symbols The following table will illustrate the different comparison symbols on the SAT. = is equal to 5 = 5 ≠ is not equal to 4 ≠ 3 > is greater than 5 > 3 ≥ is greater than or equal to x ≥ 5 (x can be 5 or any number > 5) < is less than 4 < 6 ≤ is less than or equal to x ≤ 3 (x can be 3 or any number < 3) Symbols of Multiplication When two or more numbers are being multiplied, they are called factors. The answer that results is called the product. Example: 5 × 6 = 30 5 and 6 are factors and 30 is the product. There are several ways to represent multiplication in the above mathematical statement. ■ A dot between factors indicates multiplication: 5 • 6 = 30 ■ Parentheses around any part of the one or more factors indicates multiplication: (5)6 = 30, 5(6) = 30, and (5)(6) = 30 ■ Multiplication is also indicated when a number is placed next to a variable: 5a = 30 In this equation, 5 is being multiplied by a. Like Terms A variable is a letter that represents an unknown number. Variables are frequently used in equations, formulas, and mathematical rules to help you understand how numbers behave. When a number is placed next to a variable, indi- cating multiplication, the number is said to be the coefficient of the variable. Example: 8c 8 is the coefficient to the variable c. 6ab 6 is the coefficient to both variables, a and b. If two or more terms have exactly the same variable(s), they are said to be like terms. –THE SAT MATH SECTION– 110 5658 SAT2006[04](fin).qx 11/21/05 6:44 PM Page 110 Example: 7x + 3x = 10x The process of grouping like terms together performing mathematical operations is called combining like terms. It is important to combine like terms carefully, making sure that the variables are exactly the same. This is especially important when working with exponents. Example: 7x 3 y + 8xy 3 These are not like terms because x 3 y is not the same as xy 3 . In the first term, the x is cubed, and in the sec- ond term, it is the y that is cubed. Because the two terms differ in more than just their coefficients, they cannot be combined as like terms. This expression remains in its simplest form as it is written. Laws of Arithmetic Listed below are several “math laws,” or properties. Just think of them as basic rules that you can use as tools when solving problems on the SAT exam. ■ Commutative Property. This law enables you to change the order of numbers being either multiplied or added. Examples: 5 × 2 = 2 × 5 5a = a5 ■ Associative Property. This law states that parentheses can be moved to group numbers differently when adding or multiplying. Examples: 2 × (3 × 4) = (2 × 3) × 42(ab) = (2a)b ■ Distributive Property. When a value is being multiplied by a quantity in parentheses, you can multiply that value by each variable or number within the parenthesis and then take the sum. Example: 5(a + b) = 5a + 5b This can be proven by doing the math: 5(1 + 2) = (5 × 1) + (5 × 2) 5(3) = 5 + 10 15 = 15 Order of Operations There is an order for doing every mathematical operation. That order is illustrated by the following acronym: Please Excuse My Dear Aunt Sally. Here is what it means mathematically: P: Parentheses. Perform all operations within parentheses first. E: Exponents. Evaluate exponents. M/D: Multiply/Divide. Work from left to right in your division. A/S: Add/Subtract. Work from left to right in your subtraction. Example: 5 + [ ] = 5 + [ ] = 5 + ᎏ 2 1 0 ᎏ = 5 + 20 = 25 Powers and Roots Exponents An exponent tells you how many times the number, called the base, is a factor in the product. Example: 2 5-exponent = 2 × 2 × 2 × 2 × 2 = 32 ⇑ base 20 ᎏ (1) 2 20 ᎏ (3 – 2) 2 –THE SAT MATH SECTION– 111 5658 SAT2006[04](fin).qx 11/21/05 6:44 PM Page 111 Sometimes, you will see an exponent with a variable: b n . The “b”represents a number that will be a factor to itself “n” times. Example: b n where b = 5 and n = 3 Don’t let the variables fool you. Most expressions are very easy once you substitute in numbers. b n = 5 3 = 5 × 5 × 5 = 125 Laws of Exponents ■ Any base to the zero power is always 1. Examples: 5 0 = 1 70 0 = 1 29,874 0 = 1 ■ When multiplying identical bases, you add the exponents. Examples: 2 2 × 2 4 × 2 6 = 2 12 a 2 × a 3 × a 5 = a 10 ■ When dividing identical bases, you subtract the exponents. Examples: ᎏ 2 2 5 3 ᎏ = 2 2 ᎏ a a 7 4 ᎏ = a 3 Here is another method of illustrating multiplication and division of exponents: b m × b n = b m + n ᎏ b b m n ᎏ = b m – n ■ If an exponent appears outside of the parentheses, you multiply the exponents together. Examples: (3 3 ) 7 = 3 21 (g 4 ) 3 = g 12 Squares and Square Roots The square root of a number is the product of a number and itself. For example, in the expression 3 2 = 3 × 3 = 9, the number 9 is the square of the number 3. If we reverse the process, we can say that the number 3 is the square root of the number 9. The symbol for square root is ͙25 ෆ and it is called the radical. The number inside of the radical is called the radicand. Example: 5 2 = 25; therefore, ͙25 ෆ = 5 Since 25 is the square of 5, we also know that 5 is the square root of 25. Perfect Squares The square root of a number might not be a whole number. For example, the square root of 7 is 2.645751311 It is not possible to find a whole number that can be multiplied by itself to equal 7. A whole number is a perfect square if its square root is also a whole number. Examples of perfect squares: 1,4,9,16,36,49,64,81,100, Properties of Square Root Radicals ■ The product of the square roots of two numbers is the same as the square root of their product. Example: ͙a ෆ × ͙b ෆ = ͙a × b ෆ ͙5 ෆ × ͙3 ෆ = ͙15ෆ ■ The quotient of the square roots of two numbers is the square root of the quotient. Example: ■ The square of a square root radical is the radicand. Example: (͙N ෆ ) 2 = N (͙3 ෆ ) 2 = ͙3 ෆ × ͙3 ෆ = ͙9 ෆ = 3 √ ¯¯¯ √ ¯¯¯ a √ ¯¯¯ b √ ¯¯ ¯ 5 = = a b (b ≠ 0) √ ¯¯¯¯¯ 15 √ ¯¯¯ 3 √ ¯¯¯¯¯ 15 3 = –THE SAT MATH SECTION– 112 5658 SAT2006[04](fin).qx 11/21/05 6:44 PM Page 112 . 0? x y 12 345 67 1 2 3 4 5 –1 –2 –3 –1–2–3 4 5–6–7 A B C 16 [ a 1 b 1 + a 2 b 3 a 1 b 2 + a 2 b 4 ] a 3 b 1 + a 4 b 3 a 3 b 2 + a 4 b 4 [ b 1 b 2 ] b 3 b 4 [ a 1 a 2 ] a 3 a 4 [ qr ] st [ 1 8 ] 2 1 [ 5 8 ] 4 1 THE SAT MATH SECTION– 107 5658. 6, the remainder is 3, so let k = 9. Then 5k = 45 and 45 is divided evenly by 3. Therefore, the remainder is 0. 19. 2. If (x – 1)( x – 3) = –1, then x 2 – 4x + 3 = –1, and therefore, x 2 – 4x. string are in the ratio 4: 5, let 4x and 5x represent their lengths. Therefore, 4x + 5x = 45 , 9x = 45 , and x = 5. Hence, the longest piece of string is (5)(5) = 25. 22. 26. If x – 8 is 4 greater than