1.
Line L has equation y = 2x + 3, and line M has the same y-intercept as L. Which of
the points below must M contain to be perpendicular to L?
2.
Sue just received a 5% raise. Now she earns $1200 more than Lisa. Before Sue’s
raise, Lisa’s salary was 1% higher than Sue’s. What is Lisa’s salary?
3.
If x = -1 is one solution of ax2 + bx + c = 0, what is the other solution?
4.
Ryan told Sam that he had 9 coins worth 45¢. Sam said, "There is more than one
possibility. How many are pennies?" After Ryan answered truthfully, Sam said,
"Now I know what coins you have." How many nickels did Ryan have?
5.
A point (a, b) is a lattice point if both a and b are integers. It is called visible if the
line segment from (0, 0) to it does NOT pass through any other lattice points.
Which of the following lattice points is visible?
6.
A flea jumps clockwise around a clock starting at 12. The flea first jumps one number
to 1, then two numbers to 3, then three to 6, then two to 8, then one to 9,
then two, then three, etc. What number does the flea land on at his 2008th jump?
7.
In quadrilateral ABCD, E is the midpoint of , F is the midpoint of , G is the
midpoint of , and H is the midpoint of Which of the following must be true?
8.
All nonempty subsets of {2, 4, 5, 7} are selected. How many different sums do
the elements of each of these subsets add up to?
9.
Luis solves the equation ax - b = c, and Anh solves bx - c = a. If they get the same
correct answer for x, and a, b, and c are distinct and nonzero, what must be true?
10.
How many asymptotes does the function f(x) = have?
11.
Replace each letter of AMATYC with a digit 0 through 9 (equal letters replaced by
equal digits, different letters replaced by different digits). If the resulting number
is the largest such number divisible by 55, find A + M + A + T + Y + C.
12.
The equation a^6 + b^2 + c^2 = 2009 has a solution in positive integers a, b, and c in
which exactly two of a, b, and c are powers of 2. Find a + b + c.
13.
ACME Widget employees are paid every other Friday (i. e., on Fridays in alternate
weeks). The year 2008 was unusual in that ACME had 3 paydays in February.
What is the units digit of the next year in which ACME has 3 February paydays?
14.
Five murder suspects, including the murderer, are being interrogated by the
police. Results of a polygraph indicate two of them are lying and three are
telling the truth. If the polygraph results are correct, who is the murder?
A.
Suspect A: “D is the murderer”
B.
Suspect B: “I am innocent”
C.
D.
E.
Suspect E: “B is telling the truth”
15.
Two arithmetic sequences are multiplied together to produce the sequence 468,
462, 384, …. What is the next term of this sequence?
16.
In ΔABC, AB = 5, BC = 9, and AC = 7. Find the value of
17.
A pyramid has a square base 6 m on a side and a height of 9 m. Find the volume of
the portion of the pyramid which lies above the base and below a plane parallel to
the base and 3 m above the base.
18.
In ΔABC, AB = AC and in ΔDEF, DE = DF. If AB is twice DE and ∠D is twice ∠A,
then the ratio of the area of ΔABC to the area of ΔDEF is:
19.
In hexagon PQRSTU, all interior angles = 120°. If PQ = RS = TU = 50, and QR = ST =
UP = 100, find the area of the triangle bounded by QT, RU, and PS to the nearest
tenth.
20.
For all integers k ≥ 0, P(k) = (2^2+2^1+1)(2^2-2^1+1)(2^4-2^2+1).... ()-1 is always
the product of two integers n and n + 1. Find the smallest value of k for which
n + (n + 1) ≥ 10^1000.