2261 |
AIME 2004 II Q9 |
A sequence of positive integers with \(a_1=1\) and... |
1500.00 |
2262 |
AIME 2004 II Q11 |
A right circular cone has a base with radius 600 a... |
1500.00 |
2263 |
AIME 2004 II Q13 |
Let \(ABCDE\) be a convex pentagon with \(AB\paral... |
1500.00 |
2264 |
AIME 2004 II Q14 |
Consider a string of \(n\) 7's, \(7777\cdots77\), ... |
1500.00 |
2265 |
AIME 2004 II Q15 |
A long thin strip of paper is 1024 units in length... |
1500.00 |
2266 |
AIME 2002 I Q1 |
Many states use a sequence of three letters follow... |
1500.00 |
2267 |
AIME 2002 I Q2 |
The diagram shows twenty congruent circles arrange... |
1500.00 |
2268 |
AIME 2002 I Q3 |
Jane is 25 years old. Dick is older than Jane. I... |
1500.00 |
2269 |
AIME 2002 I Q5 |
Let \(A_1, A_2, A_3, \ldots, A_{12}\) be the verti... |
1500.00 |
2270 |
AIME 2002 I Q7 |
The Binomial Expansion is valid for exponents that... |
1500.00 |
2271 |
AIME 2002 I Q8 |
Find the smallest integer \(k\) for which the cond... |
1500.00 |
2272 |
AIME 2002 I Q9 |
Harold, Tanya, and Ulysses paint a very long picke... |
1500.00 |
2273 |
AIME 2002 I Q10 |
In the diagram below, angle \(ABC\) is a right ang... |
1500.00 |
2274 |
AIME 2002 I Q13 |
In triangle \( ABC\) the medians \( \overline{AD}\... |
1500.00 |
2275 |
AIME 2002 I Q14 |
A set \(\mathcal{S}\) of distinct positive integer... |
1500.00 |
2276 |
AIME 2002 I Q15 |
Polyhedron \(ABCDEFG\) has six faces. Face \(ABCD... |
1500.00 |
2277 |
AIME 2002 II Q1 |
Given that
\begin{eqnarray*}&(1)& \text{x and y a... |
1500.00 |
2278 |
AIME 2002 II Q2 |
Three vertices of a cube are \(P=(7,12,10),\) \(Q=... |
1500.00 |
2279 |
AIME 2002 II Q3 |
It is given that \(\log_{6}a+\log_{6}b+\log_{6}c=6... |
1500.00 |
2280 |
AIME 2002 II Q4 |
Patio blocks that are hexagons \(1\) unit on a sid... |
1500.00 |