1. Quiz Bowl  All eight students will solve problems as part of a quiz bowl.  Students will work together to answer questions and compete head to head against other teams.  Teams will be seated at tables.  A moderator will ask a question using a microphone.  Each team will write an answer to each question on the paper provided.

2.  Team captains will hand one answer to the table runner.  The team captain should be seated in middle of the team.  Teams should write answers clearly and neatly so that judges can read answers. Teams with unclear answers will not receive points.  Time will begin once the moderator finishes reading the question.  Teams should NOT include computational or scratch work on the paper; only answers should be written on the paper.

3.  Once a team turns in their paper, the team may NOT change their answer.  Teams will be provided with scratch paper and pencils as well as their answer sheets.  NO books, notes, calculators, or electronic devices, such as cell phones, may be used.  Cell phones must be turned off.

4. Quiz Bowl Round 1: All Groups Can Answer Round 1 will consist of 10 questions. All teams that provide the correct answer to a question posed by a moderator will earn 5 points.

5. You have 6 black socks, 12 white socks, and 8 pink socks. It’s pitch dark and you’re packing for a trip. You reach into your drawer, blindly choose an individual sock, and pack it. How many socks do you need to choose to be sure you packed at least one pair of pink socks?

7. Solution Think of the worst case scenario: choosing no pink socks for the 1 st, 2 nd, 3 rd, 4 th, 5 th, 6 th, etc. socks. How long can you keep up that string of bad luck? The worst case is you pull all 18 black and white socks first. After that, 2 more socks will guarantee at least one pair of pink socks. So if you pack 20 socks, you get at least one pink pair.

8. Find the area of square BHIC, given that ABC is a right triangle, and ABFG and ACDE are both squares.

10. Solution According to the Pythagorean theorem, the sum of the areas of squares constructed on the legs of right triangles equals the area of the square constructed on the hypotenuse. A 2 + B 2 = C 2 9 + 25 = 34 No square roots needed!

11. Find the value of x and y that make both equations true: 3x – 5y = 17 y = 12 + 2x

13. Solution 3x – 5y = 17 y = 12 + 2x Therefore, 3x – 5(12 + 2x) = 17 Distributing: 3x – 60 – 10x = 17 Combining Like Terms: -7x – 60 = 17 Addition Property of Equality: -7x = 77 Division Property of Equality: x = -11 Substitution: y = 12 + 2(-11) y = -10

14. Two of the angles in a triangle measure 48º and 84º. What type of triangle is this? Be as specific as you can.

16. Solution If two of the angles are 48º and 84º, then the third is 180º - 48º - 84º = 180º - 132º = 48º Since the triangle has two congruent angles (the two 48º angles), it’s isosceles. The triangle is not equilateral or right, so the most specific name is an isosceles triangle.

17. Working together, Gertrude and Bertha can clear their entire driveway in 30 minutes. Working alone it takes Gertrude 40 minutes to shovel the whole driveway. How long does it take Bertha to shovel the whole driveway on her own?

19. Solution Driveway Gertrude shovels in 40 minutes Driveway Gertrude shovels in 30 minutes Driveway Bertha shovels in 30 minutes Gertrude working alone: Both working together So Bertha working alone would take 30 * 4 = 120 minutes

20. If you roll two identical fair dice, what is the probability of rolling “snake eyes” – in other words rolling a 2?

22. Solution With one fair die, the chance of rolling a 1 is 1 in 6 possibilities. With two independent events, the chance of both happening is the product of their probabilities. 1/6 * 1/6 = 1/36 Or, list all the possibilities in a table:

23. 123456 1234567 2345678 3456789 45678910 56789 11 6789101112

24. A serving of grapes is 2/3 of a cup. How many servings are in a 6 ½ cup package of grapes? Give your answer as a mixed number of servings.

26. Solutions 6 ½ ÷ 2/3 = 13/2 * 3/2 = 39/4 = 9 ¾ servings 3 servings of grapes is 2 cups (2/3 + 2/3 + 2/3 = 2), so 6 ½ cups is 9 servings plus another ½ cup. A ½ cup of grapes is 3/6 of a cup, and 2/3 of a cup is 4/6 of a cup, so 3/6 of a cup is ¾ of what is needed to make a full serving. So there are 9 full servings and another ¾ of a serving.

27. Order the numbers -1.125,,-, 0.6, from least to greatest.

29. Solution Clearly -1.125 and -7/5 are smallest -7/5 = -14/10 = -1.4 -1.4 < -1.125 2/3 = 0.666666666… 0.6 < 0.666666666… 10/12 is 2/12 or 1/6 away from 1 2/3 is 1/3 away from 1, therefore 10/12 > 2/3 -7/5, -1.125, 0.6, 2/3, 10/12

30. Graph all solutions to 3|-2x – 4| > 12

32. Solution 3|-2x – 4| > 12 Therefore, |-2x – 4| > 4 So -2x – 4 has to be greater (to the right of) than 4 or less than -4 (to the left of) -2x – 4 > 4  -2x > 8  x < -4 -2x – 4 0

33. What is the sum of the whole numbers from 1 to 100? In other words, 1 + 2 + 3 + 4 + 5 + … + 98 + 99 + 100 = ???

35. Solution 1 + 100 = 101. 2 + 99 = 101. 3 + 98 = 101. 4 + 97 = 101…. 50 + 51 = 101. There are 50 pairs of numbers that add up to 101. 50 * 101 = 5050 The sum of all the numbers from 1 to 100 is 5,050.

36. Quiz Bowl Round 2: Multiple Answers–1 Minute Round 2 will consist of 3 questions that each have multiple answers. Each team will earn 1 point for each correct answer and 1 bonus point if the team provides all of the possible answers.

37. Mel, Pat, Ash, and Sal meet for the first time and all shake hands. List all the handshakes.

39. Solution Mel – Pat, Mel – Ash, Mel – Sal Pat – Ash, Pat – Sal Ash – Sal

40. List all the prime numbers less than 100 that are the sum of 3 (not necessarily distinct) perfect cubes.

42. Solution 1 + 1 + 1 = 3 prime! 1 + 1 + 8 = 10 1 + 8 + 8 = 17 prime! 1 + 1 + 27 = 29 prime! 1 + 27 + 27 = 55 1 + 8 + 27 = 36 1 + 1 + 64 = 66 1 + 64 + 64 = too big 1 + 8 + 64 = 73 prime! 1 + 27 + 64 = even 8 + 8 + 8 = 24 8 + 8 + 27 = 43 prime! 8 + 27 + 27 = even 8 + 27 + 64 = 99 8 + 8 + 64 = multiple of 8 8 + 64 + 64 = too big 27 + 27 + 27 = mult. of 3 27 + 27 + 64 = too big 27 + 64 + 64 = too big 64 + 64 + 64 = too big Cubes: 1, 8, 27, 64, 125…

43. A triangle has 3 sides, the lengths of which are whole numbers of centimeters. Two sides of the triangle are 3 cm and 5 cm, respectively. List all the possible lengths for the 3 rd side.

45. Solution If 5 is the longest side length, then x + 3 > 5 and x ≤ 5, so x = 3, 4, 5. If x is the longest side length, then x > 5 and 3 + 5 > x, so x = 6, 7. x is any integer from 3 to 7 (including 3 and 7)

46. Quiz Bowl Round 3: Speed Round with Follow Up Questions Round 3 will consist of 5 questions. The first team to give a correct answer to the runner will get 3 points. The first team with the correct answer will then receive a follow-up question for 2 bonus points.

47. Q: A super tripledon is found by taking an integer raising it to the 3 rd power, then multiplying it by 3 and then adding 3 to the result. What is the super tripledon of 3?

49. Solution 3 3 * 3 + 3 = 27 * 3 + 3 = 81 + 3 = 84

50. F: What number has a super tripledon value of 81,003 ?

52. Solution x 3 * 3 + 3 = 81,003 x 3 * 3 = 81,000 x 3 = 27,000 x = 30

53. Q: Determine the slope- intercept equation of a line that passes through points (2,-3) & (5, 5).

55. Solution Slope: –Change in y: 5 - -3 = 8 –Change in x: 5 – 2 = 3 –Ratio: 8/3 Intercept: –Going left 2 units results in going down 2 * (8/3) units = 16/3 units –Going left 2 and down 16/3 from (2, -3) yields a y-intercept of (0, -25/3) y = (8/3)x – 25/3

56. F: What is the slope of a line that passes through the origin and is perpendicular to the previous line?

58. Solution Slopes of perpendicular lines are opposite reciprocals. The opposite reciprocal of 8/3 is -3/8 The slope is -3/8

59. Q: How many distinguishable arrangements are there for the letters in the word “Drexel”?

61. Solution 6 * 5 * 4 * 3 * 2 * 1 / 2 = 360 arrangements. If all the letters were distinct it would be 6 * 5 * 4 * 3 * 2 * 1 because there would be 6 choices for the first letter, times 5 for the second, times 4 for the thirds, etc. But we divide by 2 because there are two ways to arrange the indistinguishable e’s in each of the words, so we double-counted, for example xldree and xldree.

62. F: How many of those arrangements start with a “D”?

64. Solution 1 * 5 * 4 * 3 * 2 * 1 / 2 = 60 arrangements. One choice for the first letter (D), then 5 choices for the second, 4 for the third, etc. We again have to divide by 2 because we are still double counting words like dlrxee and dlrxee

65. Q: A right triangle has side lengths of x, 5, and 12. What are the 2 possible exact values for x?

67. Solution Let’s say 5 and 12 are the legs, then 5 2 + 12 2 = x 2. I recognize that as a 5, 12, 13 triangle, but could also solve: 25 + 144 = x 2, so 169 = x 2. x = 13 The other case is that 12 is the hypotenuse. 5 2 + x 2 = 12 2, or 25 + x 2 = 144. x 2 = 144 – 25 = 119 x = √119

68. F: A triangle has sides 7, 9, 12. Classify the triangle as acute, right or obtuse.

70. Solution We can use the Pythagorean Theorem: 7 2 + 9 2 = 49 + 81 = 130 12 2 = 144 130 < 144 To be a right triangle 7 2 + 9 2 would have to equal 12 2 but 12 2 is too big… so the “hypotenuse” is too big for a right triangle That means this triangle is obtuse.

71. Q: Is the number of 2-digit numbers in which both 2 digits are odd greater than, less than, or the same as the number of 2-digit numbers in which both 2 digits are even?

73. Solution Half of the 2-digit numbers in the 10s, 30s, 50s, 70s, and 90s have both digits odd Half of the 2-digit numbers in the 20s, 40s, 60s, and 80s have both digits even. Because 00, 02, 04, 06, and 08 are not considered 2-digit numbers, the number of 2-digit numbers with both digits odd is greater.

74. F: How many 2 digit numbers exist where both 2 digits are odd?

76. Solution Half of the 2-digit numbers in the 20s, 40s, 60s, and 80s have both digits even. 20, 22, 24, 26, 28, 40, 42, 44, 46, 48, 60, 62, 64, 66, 68, 80, 82, 84, 86, 88 20 two-digit numbers exist such that both digits are even.