2016 State Competition Solutions Are you wondering how we could have possibly thought that a Mathleteยฎ would be able to answer a particular Sprint Round problem without a calculator? Are you wondering how we could have possibly thought that a Mathlete would be able to answer a particular Target Round problem in less 3 minutes? Are you wondering how we could have possibly thought that a particular Team Round problem would be solved by a team of only four Mathletes? The following pages provide solutions to the Sprint, Target and Team Rounds of the 2016 MATHCOUNTSยฎ State Competition. These solutions provide creative and concise ways of solving the problems from the competition. There are certainly numerous other solutions that also lead to the correct answer,
some even more creative and more concise! We encourage you to find a variety of approaches to solving these fun and challenging MATHCOUNTS problems.
Special thanks to solutions author Mady Bauer
for graciously and voluntarily sharing her solutions with the MATHCOUNTS community
for many, many years!
2016 State Competition
Sprint Round
1. Given: ๐๐@๐๐ = ๐๐2๐๐+๐๐
Find: 5@3
5@3 = 5(2ร5)+3
= 513
Ans.
2. Find: the number of rectangles displayed in
the diagram.
There are 6 rectangles that are one row high by one column wide.
There are 3 rectangles that are one row high by two columns wide.
There are 4 rectangles that are two rows high by one column wide.
2 here
and 2 here
There are 2 rectangles that are two rows high by two columns wide.
1 here
and 1 here There are 2 rectangles that are three rows high by one column wide.
Finally, there is 1 rectangle three rows high by 2 columns wide.
The total number of rectangles is 6 + 3 + 4 + 2 + 2 + 1 = 18 Ans.
3. Given: 7๐ฅ๐ฅ + 13 = 328 Find: the value of 14๐ฅ๐ฅ + 13 Multiply the equation by 2. 14๐ฅ๐ฅ + 26 = 656 14๐ฅ๐ฅ + 26 โ 13 = 656 โ 13 = 643 Ans.
4. Find: the median of the positive perfect squares less than 250. The largest square less than 250 is 225 or 152. That would be 15 integers so the median is the eighth one. 82 = 64 Ans.
5. Given: ๐ฅ๐ฅ+5๐ฅ๐ฅโ2
= 23
Find: ๐ฅ๐ฅ ๐ฅ๐ฅ + 5๐ฅ๐ฅ โ 2
=23
3๐ฅ๐ฅ + 15 = 2๐ฅ๐ฅ โ 4 ๐ฅ๐ฅ = โ19 Ans.
6. Given: WX=4, XY=2, YV=1 and UV=6. Find: the absolute difference between the areas of triangles TXZ and UYZ.
The area of triangle TXZ is equal to the area of triangle TXU minus TZU. The area of triangle UYZ is equal to the area of triangle TYU minus TZU. This means the difference in the area of triangles TXZ and UYZ is equal to the difference between TXU and TYU. The base of both triangles is TU. The height of both triangles is the same โ a perpendicular from WV to TU. Therefore, the area of each triangle is the same. The difference between the two areas is 0. Ans.
7. Given: A bag has 4 blue, 5 green and 3 red marbles. Find: How many green marbles must be added to the bag so that 75% of the marbles are green? There are a total of 4 + 5 + 3 = 12 marbles. Let ๐ฅ๐ฅ = the number of green marbles added. 5 + ๐ฅ๐ฅ
12 + ๐ฅ๐ฅ=
34
20 + 4๐ฅ๐ฅ = 36 + 3๐ฅ๐ฅ ๐ฅ๐ฅ = 16 Ans.
8. Given: MD swaps out the tires on his trike so that all four will have been used for the same distance as he drives 25,000 miles. Find: How many miles does each tire drive.
Each tire will be on for 34 of the trip.
34
ร 25000 = 18750 Ans.
9. Given: Lucy and her dad have the same
birthday. When Lucy was 15 her father was 3 times her age. On this birthday, Lucyโs father turned twice as old and Lucy did. Find: How old is Lucy? When Lucy was 15 her father was 45. Currently, her Dad is twice her age. Let ๐ฅ๐ฅ represent the number of years since Lucy was 15. Then 2 ร (15 + ๐ฅ๐ฅ) = 45 + ๐ฅ๐ฅ 30 + 2๐ฅ๐ฅ = 45 + ๐ฅ๐ฅ ๐ฅ๐ฅ = 15 Her Dad is now 45 + 15 = 60, and Lucy is 15 + 15 = 30 Ans.
10. Given: The sum of three distinct 2-digit primes is 53. Two of the primes have a units digit of 3 and the other prime has a units digit of 7. Find: the greatest of the three primes. Letโs list the 2-digit primes less than 53 that end in 3: 13, 23, 43. Now list the 2-digit primes less than 53 that end in 7: 17, 37, 47. Remove 43 and 47 because they are too large to be one of the three primes. 13 + 23 = 36 53 โ 36 = 17 So the primes are 13, 17 and 23. The greatest of the primes is 23. Ans.
11. Given: Ross and Max weigh 184 pounds. Ross and Seth weigh 197 pounds. Max and Seth weigh 189 pounds.
Find: Rossโ weight. Let ๐๐ = Rossโ weight. Let ๐๐ = Maxโs weight. Let ๐ ๐ = Sethโs weight. ๐๐ + ๐๐ = 184 ๐๐ + ๐ ๐ = 197 ๐๐ + ๐ ๐ = 189 Adding these three equations yields 2๐๐ + 2๐๐ + 2๐ ๐ = 184 + 197 + 189 = 570 Doubling the third equations, we get 2๐๐ + 2๐ ๐ = 189 ร 2 = 378 Substituting this into the equation, 2r + 2m + 2s = 570, we get 378 + 2๐๐ = 570 2๐๐ = 570โ 378 = 192 ๐๐ = 96 Ans.
12. Find: the least possible denominator of a positive rational number 0.๐ด๐ด๐ด๐ด๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ where ๐ด๐ด and ๐ด๐ด are distinct digits. Let ๐ฅ๐ฅ = 0.๐ด๐ด๐ด๐ด๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ Then 100๐ฅ๐ฅ = ๐ด๐ด๐ด๐ด.๐ด๐ด๐ด๐ด๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ 99๐ฅ๐ฅ = ๐ด๐ด๐ด๐ด
๐ฅ๐ฅ =๐ด๐ด๐ด๐ด99
99 = 11 ร 9 Suppose the denominator is 9. An example
is 1199
= 19โ 0. 11๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ
No, this doesnโt work since ๐ด๐ด = ๐ด๐ด and that violates the requirements. What about 11? An example is: 999
= 111โ 0. 09๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ
Yes, in this case ๐ด๐ด โ ๐ด๐ด. 11 Ans.
13. Given: It costs $3.25 for the first mile and
$0.45 for each additional 14 mile.
Find: How many miles can be travelled for $13.60 13.60โ 3.25 = 10.35 So, after the first mile there is $10.35 left.
10.350.45
= 23
So thatโs an additional 23 quarter miles.
1 + 234
= 1 + 5 34
= 6 34 Ans.
14. Given: 2 m3 of soil containing 35% sand is
mixed with 6 m3 of soil containing 15% sand. Find: the percent of the new mixture that is sand Of the 2 m3 mixture, 0.35 ร 2 = 0.7 m3 is sand, and of the 6 m3 mixture, 0.15 ร 6 = 0.9 m3 is sand. Putting the two mixtures together gives us 2 + 6 = 8 m3 of mixture, of which 0.7 + 0.9 = 1.6 m3 is sand. 1.68
= 15
= 20% Ans.
15. Given: Alex runs a lap in 1 minute, 28
seconds. Becky runs a complete lap in 1 minute, 16 seconds. Find: How many complete laps will Alex have run when Becky passes him for the first time? Alex runs at a rate of 88 seconds per lap and Becky at a rate of 76 seconds per lap. Let ๐๐ = the length of the lap.
After one second Alex has run 188
of a lap.
Becky has run 176
of a lap. The difference is 176โ 1
88= 88โ76
76ร88= 12
76ร88= 3
19ร88= 3
1672
At a separation of 31672
laps per second it
will take 16723
seconds to reach one lap
difference. 16723
= 557 13 seconds
5571388
= 6 13 laps.
Therefore, Alex will have run 6 complete laps when Becky passes him. 6 Ans.
16. Given: Four teams, the Beavers, Ducks, Platypuses and Narwhals, are in a single-elimination tournament.
Find: The probability that the Ducks and the Beavers will play each other in one of the two rounds. Letโs start out with the Ducks and the Beavers playing each other in the first round.
There are 2 possibilities for the outcome of the Ducks versus Beavers game and 2 possibilities for the outcome of the Platypuses versus Narwhals game. There are 2 ร 2 = 4 match-up possibilities for the final round. In 4 out of 4 of these possibilities the Ducks and the Beavers will play since they meet in the first round. If the Ducks and the Beavers do not play in the first round, there are two different first round scenarios. First, letโs look at the Beavers playing the Platypuses and the Ducks playing the Narwhals in the first round. Again, there are 2 ร 2 = 4 possible outcomes of these matchups. Of these possibilities, only 1 will the Beavers and the Ducks play each other, shown here.
In the other first round scenario the Beavers play the Narwhals and the Ducks play the Platypuses. Again, there are 4 possible outcomes and only 1, shown here, where the Beavers play the Ducks.
Of the three possible first round lineups, there are 4 + 4 + 4 = 12 possible second round matchups. Out of these matchups the Ducks and the Beavers will end up playing each other in 4 + 1 + 1 = 6 of the scenarios. So the probability is 612
= 12 Ans.
17. Given: ๐๐(๐ฅ๐ฅ) is defined for positive integers
and ๐๐(๐๐) + ๐๐(๐๐) = ๐๐(๐๐๐๐) and ๐๐(3) = 5. Find: ๐๐(27) ๐๐(3) + ๐๐(3) = ๐๐(3 ร 3) ๐๐(9) = 5 + 5 = 10 ๐๐(3) + ๐๐(9) = ๐๐(3 ร 9) ๐๐(27) = 5 + 10 = 15 Ans.
18. Given: In rectangle ABCD, AB = 6 and AD = 5. AC is extended to point E so that ๐ด๐ด๐ด๐ด๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ is congruent to ๐ด๐ด๐ถ๐ถ๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ. Find: the length of ๐ท๐ท๐ถ๐ถ๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ
Since we extend C to E and ๐ด๐ด๐ด๐ด = ๐ด๐ด๐ถ๐ถ, then CE is just another diagonal of a 5 ร 6 rectangle.
The length of ๐ท๐ท๐ท๐ท๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ is 12 and the length of ๐ท๐ท๐ถ๐ถ๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ is 5. Triangle DEF is a 5-12-13 right triangle. Therefore, the length of ๐ท๐ท๐ถ๐ถ๏ฟฝ๏ฟฝ๏ฟฝ๏ฟฝ is 13. Ans.
19. Given: The digits of a 3-digit number are reversed. The product of the new and original integers is 91567. Find: the new integer. Since the last digit of our product is a 7, letโs look at multiply a 7 and a 1. The product will look like this:
Looking at the far left column, the ten-thousands place, the product of our two numbers has a 9 here but we see a 7 above
it. This tells us that 2 must be added, which will be carried over from the thousands column. So B + 7B + N = 21, where N represents a single digit integer number carried over from the hundreds column. Rearranging we get 8B + N = 21 If B is 1, N would be 13, if B is 2, N would be 5, and if B is 3, N would be โ3. The only way to get N to be a single digit positive integer is if B = 2. This means our multiplication would be 127 ร 721 which equals 91567. 721 Ans.
20. Given: Diagonal XZ of rectangle WXYZ is divided into 3 segments each of length 2. MW and NY are parallel and perpendicular to XZ.
Find: the area of WXYZ. First letโs draw in a line parallel to XZ from point R to point P, as shown, to create rectangle MRPN and triangle RPY.
We know mโ MXR โ mโ PRY, RP = MN = 2 and MR = NP. Triangles XMR and RPY are congruent (by ASA), and, therefore, XR = RY and MR = PY. We also can determine, by AAA similarity, that triangle RPY is similar to triangle YNZ.
Using this information, we can set up two ratios to solve for unknown distances. 2/NY = PY/2 and NY = 2PY Solving we get: 4 = NY ร PY 4 = 2PY ร PY 2 = PY2 PY = โ2 And therefore NY = 2โ2 Now we can use the Pythagorean theorem to find XY and YZ. PY2 + 22 = RY2 (โ2)2 + 4 = RY2 6 = RY2 RY = โ6 Therefore, XY = 2RY = 2โ6. NY2 + 22 = YZ2 (2โ2)2 + 4 = YZ2 12 = YZ2 YZ = 2โ3. The area of rectangle WXYZ is XY ร YZ = 2โ6 ร 2โ3 = 4โ18 = 12โ2 Ans.
21. Given: A spinner is divided into 5 sectors. The angles of sections 1 through 3 measure 60ยฐ. The angles of sections 4 and 5 measure 90ยฐ. Find: the probability that at least one spin lands on an even number if the spinner is spun twice.
There are two even numbers, 2 and 4. The section labeled 2 is 60ยฐ, and the section labeled 4 is 90ยฐ. The probability of one spin
landing on an even number is, therefore, 60+90360
= 150360
= 512
.
The probability of one spin landing on an
odd number is 1 โ 512
= 712
.
If you are spinning twice, there are three ways to get at least one even. You can spin two evens, an even and then and odd or an odd and then an even. The probability of spinning two evens is 512
ร 512
= 25144
.
The probability of spinning an even then an
odd is 512
ร 712
= 35144
.
The probability of spinning an odd then an
even is 712
ร 512
= 35144
.
So the probability of spinning at least one
even is 25144
+ 35144
+ 35144
= 95144
Ans.
22. Given: The student council has 8 members
consisting of 4 officers and 4 other members. The 4 officers must sit together at the circular table. Find: How many distinguishable circular seating orders are possible?
Let o1 through o4 be the officers and m1 through m4 be the members. There are 4! = 24 ways that o1 through o4 can be ordered. Similarly, there are 24 ways that m1 through m4 can be ordered. 24 ร 24 = 576 Ans.
23. Given: a chip is placed in the upper-left corner square of a 15 ร 10 grid. The chip can move in an L-shaped pattern.
Find: the minimum number of L-shaped moves to move the chip to the square marked โXโ. You need to move 9 down and 14 to the right. Moving 14 to the right will take at least 7 L-shaped patterns that move 2 to the right and 1 down. But, if we do 7 of those we end up at (15, 8) given that we started at (1, 1) and must end up at (15, 10). So, can we do it with 8 L-shaped moves? We can do 6 moves of (2 right, 1 down) to get us to (13, 7). One move of (1 right, 2 down) will get us to (14, 9) leaving us with having to go (1, 1) more but thereโs no L-shaped move to get us there. Again, after 6 moves, we can move (1 left, 2 down) to (12, 9). From there we are still going to need 2 more moves because 15 โ 12 = 3. It looks like it will take us 9 moves to get this to work. We start at (1, 1).
Now letโs do 6 (2 right, 1 down) to get to (13, 7)
Now the 7th L-shaped move is 2 left and 1 down getting us to (11, 8).
This has positioned us to move 2 more L-shaped moves of 2 right and 1 down.
9 Ans.
24. Given: On line segment ๐ด๐ด๐ถ๐ถ, ๐ด๐ด is the midpoint of segment ๐ด๐ด๐ด๐ด and ๐ท๐ท is the midpoint of segment ๐ด๐ด๐ถ๐ถ. ๐ด๐ด๐ท๐ท = 17 and ๐ด๐ด๐ถ๐ถ = 21. Find: the length of segment ๐ด๐ด๐ถ๐ถ.
๐ด๐ด๐ด๐ด = ๐ด๐ด๐ด๐ด ๐ด๐ด๐ท๐ท = ๐ท๐ท๐ถ๐ถ Let ๐ฅ๐ฅ = ๐ด๐ด๐ด๐ด Let ๐ฆ๐ฆ = ๐ด๐ด๐ท๐ท Then the length of segment ๐ด๐ด๐ท๐ท is 2๐ฅ๐ฅ + ๐ฆ๐ฆ and the length of ๐ด๐ด๐ถ๐ถ is ๐ฅ๐ฅ + 2๐ฆ๐ฆ. Since AD = 17 and BE = 21, we have 2๐ฅ๐ฅ + ๐ฆ๐ฆ = 17 ๐ฅ๐ฅ + 2๐ฆ๐ฆ = 21 Adding these two equations yields 3๐ฅ๐ฅ + 3๐ฆ๐ฆ = 38 3(๐ฅ๐ฅ + ๐ฆ๐ฆ) = 38
๐ฅ๐ฅ + ๐ฆ๐ฆ =383
The length of ๐ด๐ด๐ถ๐ถ is 2๐ฅ๐ฅ + 2๐ฆ๐ฆ.
2๐ฅ๐ฅ + 2๐ฆ๐ฆ = 2(๐ฅ๐ฅ + ๐ฆ๐ฆ) = 2 ร 383
= 763
Ans.
25. Given: There are 12 different mixed
numbers that can be created by substituting three of the numbers 1, 2, 3 and 5 for a, b,
and c in the expression ๐๐ ๐๐๐๐ where ๐๐ < ๐๐.
Find: the mean of the 12 numbers. These are the 12 numbers:
123
, 125
, 135
213
, 215
, 235
312
, 315
, 325
512
, 513
, 523
Add up all the mixed numbers whose denominator is 2.
312
+ 512
= 9
Add up all the mixed numbers whose denominator is 3.
123
+ 213
+ 513
+ 523
= 1363
= 15
Add up all the mixed numbers whose denominator is 5.
125
+ 135
+ 215
+ 235
+ 315
+ 325
=
12125
= 1425
Now, add them all up.
9 + 15 + 1425
= 3825
=192
5
Now determine the mean. 192512
= 1925ร12
= 19260
= 3 1260
= 3 15 Ans.
26. Given: 738 consecutive integers are added.
The 178th number in the sequence is 4,256,815. Find: the remainder when the sum is divided by 6. First, notice 738 is evenly divisible by 6 because it is even and its digits sum to 18, a multiple of 3. The formula for adding the first n consecutive integers is (n)(n + 1)/2. Let x represent the first integer in this sequence. The sum of these 738 integers will be (738)(738 + 1)/2 + 738x
Because we know 738 is divisible by 6, we know 738x will also be divisible by 6 and therefore have remainder 0. We donโt need to even find the value of x. Now lets look at what still remains in the sum (738)(738 + 1)/2 = (369)(738 + 1) = 369 ร 738 + 369 We know 6 evenly divides 369 ร 738 So the remainder for this integer sum is equal to the remainder when 369 is divided by 6. 369 รท 6 = 61 remainder 3. Ans.
27. Given: A(-5,0) and B(5,0) Find: How many points X are there such that XA and XB are both positive integer distances, each less than or equal to 10? Letโs assume that the point X is not on the x-axis. Then itโs all about creating a triangle where one side is 10 and the other two are 10 or smaller. Letโs start with one of the other two sides being 10. The max length for the third side would be 19 but we are limited to lengths โค 10. So the third side can be 1 through 10 for a total of 10 triangles. Now let one of the other two sides be 9. The max length for the third side is 18. Again, with the limitations, and taking into account that the first two lines differ by one, the third side can be 2 through 10 or 9 possibilities. Similarly for the second side having a length of 8, the third side can be 3 through 10 or 8 possibilities. Thereโs the pattern: Second side is 7; third side is 4 through 10. Second side is 6; third side is 5 through 10. Second side is 5; third side is 6 through 10. Second side is 4; third side is 7 through 10. Second side is 3; third side is 8 through 10.
Second side is 2; third side is 9 through 10. Second side is 1, third side is 10. 1 + 2 + โฏ+ 9 + 10 = 55 All of these triangles have been above the x-axis. But we can have the same triangles reflected over the x-axis. That gives us, so far, 55 + 55 = 110 possibilities. All of these triangles assumed that X was not on the x-axis. But if it is, you could have X at (โ4,0), (โ3,0), โฆ , (3,0), (4,0) Thatโs another 9 points. 110 + 9 = 119 Ans.
28. Given: ๐๐(๐๐) = ๐๐ โ ๐๐! + ๐๐, where ๐๐ and ๐๐ are positive integers. The range of ๐๐ contains two numbers that differ by 20. Find: the least possible value of ๐๐(1). Two values, f(y) and f(x) must differ by 20. f(y) โ f(x) = a โ y! + b โ (a โ x! + b) f(y) โ f(x) = a โ (y! โ x!) 20 = a โ (y! โ x!) Since all the variable are positive integers, letโs look at pairs integers that multiply to be 20: 1 ร 20, 2 ร 10, 4 ร 5. We want to minimize the value of a in order to minimize the value of f(1). Letโs look at the value of the first 5 factorials: 1! = 1, 2! = 2, 3! = 6, 4! = 24, 5! = 120 If a is 1, then we need two factorials that differ by 20. There arenโt two. If a is 2, then we need two factorials that differ by 10. There arenโt two. If a is 4, then the factorials 6! โ 1! = 5 will work. So we know a is 4, b can be any positive integer but we want to minimize f(1) so lets pick b to be 1. f(1) = 4 โ 1! + 1 = 5 Ans.
29. Given: A list of numbers 1, 2, โฆ 9999 where the digits 0 through 9 are replaced with the letters A through J. The resulting list of 9999 strings is sorted alphabetically. Find: How many strings appear before โCHAIโ? Alphabetic sorting is just what you find in the dictionary. - Single digit numbers 0 (A) canโt be considered so we start with 1. 1 and 2 (i.e., B and C) will be before CHAI. Thatโs two numbers. - Double digit numbers. Again, we canโt start with A but we can start with B. 10-19 (BA-BJ) will appear before CHAI. For double digit numbers starting with C you have 20-27 (CA-CH) that will appear before CHAI. Thatโs a total of 18 numbers. - Three digit numbers. Again, we canโt start with A, but we can start with B. 100-199 (BAA-BJJ) will appear before CHAI. 200-269 (CAA-CGJ) will appear before CHAI. Moving to 270, thatโs the only one we can have (CHA). Thatโs a total of 100 + 70 + 1 = 171 - Four digit numbers. As usual we start with B โ we have 1000-1999 (BAAA-BJJJ) for 1000 numbers. Then we have 2000-2699 (CAAA-CGJJ) or 700 numbers. Finally we have 2700-2707) (CHAA-CHAH) or 8 numbers. Thatโs a total of 1000 + 700 + 8 = 1708 Now letโs add them all up: 2 + 18 + 171 + 1708 = 1899 Ans.
30. Given: A 12-sided die has the shape of a hexagonal bipyramid. Each has a hexagonal base with side 1 and height 1. The die is rolled and lands on one of its triangular faces. Find: How high off the ground is the
opposite face? This is what a hexagonal bipyramid looks like.
Now the problem says tht the bipyramid has landed on one of its sides. So letโs rotate it onto its side. And what do you notice about this image? Doesnโt it look, in 2-dimensional space, like a rhombus? So what we have is a rhombus and what we are looking for is the height of the rhombus. If you think of one of the triangles of one of
the pyramids lying flat on the surface the height of the triangle is the length of the top and bottom of the rhombus. The triangles that connect the bottom triangle (lying flat on the surface) to its opposite side also use the height of the triangle as the length of the other two sides. Thatโs why this is a rhombus. So we are given that the height of the hexagonal pyramid is 1 and that the hexagonal โconnectorโ between the two pyramids has sides of length 1.
โ = 1 ๐ฅ๐ฅ is just half of the height of a hexagon, or โ32
So now we have to find ๐ฆ๐ฆ, which is the height of the triangles of the pyramid and the hypotenuse of the triangle formed with 1 and ๐ฅ๐ฅ. 12 + ๐ฅ๐ฅ2 = ๐ฆ๐ฆ2
1 + ๏ฟฝโ32 ๏ฟฝ
2
= ๐ฆ๐ฆ2
๐ฆ๐ฆ2 = 1 +34
=74
๐ฆ๐ฆ = ๏ฟฝ74
=โ72
The sides of the rhombus are, therefore, โ72
Great! Now we just need the height of the rhombus. But thatโs not so easy. Or is it. We do know of two equations to get the area of the rhombus. ๐ด๐ด = ๐๐โ where ๐๐ is the side length of the rhombus and โ is the height.
๐ด๐ด =12๐๐1๐๐2
where ๐๐1 and ๐๐2 are the diagonals of the rhombus. Hmm, maybe we do know those. One of those diagonals, if you look back at the picture of the hexagonal bipyramid, is just the heights of each pyramid or 2 ร 1 = 2 The other one is just the height of the hexagon or โ3.
Now we can finally find the height!
๐๐โ =12๐๐1๐๐2
โ72โ =
12
ร 2 ร โ3 = โ3
โ =2 ร โ3โ7
=2 ร โ3 ร โ7โ7 ร โ7
โ = 2โ217
Ans.
Target Round
1. Given: The bug crawls 1 unit up, 2 units right, 3 units down and 4 units left. The bug repeats this set of moves 2015 more times. Find: If the coordinates of the bugโs final location are (๐๐, ๐๐), find ๐๐ + ๐๐. Starting at (0, 0) moving up 1 unit puts the bug at (0, 1). Moving to the right 2 units puts the bug at (2,1). Moving down three units puts the bug at (2,โ2). Moving 4 units to the left puts the bug at (โ2,โ2). So the bug started at (0, 0) and ended at (โ2,โ2). Since the bug will continue to move in the same pattern, we can see that for each move โ2 is added to both the x and y coordinates. At the end of 2016 moves the bug can be found at the coordinates (โ4032,โ4032). ๐๐ + ๐๐ = โ4032 + โ4032 = โ8064 Ans.
2. Given: A rectangular piece of cardboard measures 6 by 8. It is trimmed identically on all four corners. Each corner is a quarter-circle. Find: the perimeter of the resulting figure.
The four quarter-circles form a complete circle with radius 3. Its perimeter is 2๐๐๐๐ = 6๐๐ Since the length of the longer side is 8 and we have 2 quarter-circles with radius 3, what remains of the original length is 8 โ (2 ร 3) = 2 Therefore, the perimeter of the resulting figure is 2 + 2 + 6๐๐ = 6๐๐ + 4 Ans.
3. Given: A coin is flipped four times. Find: the probability of getting 2 heads and two tails. This one is simple enough to just list the variations. HHTT, HTHT, HTTH, TTHH, THTH, THHT
6 ร ๏ฟฝ12๏ฟฝ4
= 624
= 616
= 38
= 37.5% Ans.
4. Given: The areas of three faces of a
rectangular prism are 54, 24 and 36. Find: the length of the space diagonal. Let ๐๐ = the length of the prism. Let ๐ค๐ค = the width of the prism. Let โ = the height of the prism. Then ๐๐๐ค๐ค = 54 ๐ค๐คโ = 24 ๐๐โ = 36 ๐๐2๐ค๐ค2โ2 = 54 ร 24 ร 36 = 9 ร 6 ร 4 ร 6 ร 9 ร 4 = 92 ร 62 ร 42 So, we have a 9 ร 6 ร 4 rectangular prism.
First letโs find the hypotenuse of the rectangle with sides 4 and 9. Let ๐ฅ๐ฅ = the length of the red line. 42 + 92 = ๐ฅ๐ฅ2 ๐ฅ๐ฅ2 = 16 + 81 = 97 Now we can find the length of the space diagonal. Let ๐ฆ๐ฆ = the length of the space diagonal. ๐ฆ๐ฆ2 = ๐ฅ๐ฅ2 + 62 ๐ฆ๐ฆ2 = 97 + 36 = 133 ๐ฆ๐ฆ = โ133 Ans.
5. Given: Two 8 by 10 inch sheets are placed on top of a 2 by 3 foot table. The area of the table not covered by the paper is 708 in2. Find: the area of the overlap of the two sheets of paper. A 2 foot by 3 foot rectangular table is a 24 inch by 36 inch rectangular table. The area of the table is 24 ร 36 = 864 in2. The area not covered by the paper is 708 in2 leaving 864 โ 708 = 156 in2 that is covered by the paper. If each of the sheets of paper did not overlap each other, the amount of area taken by the paper would be 8 ร 10 ร 2 = 160 in2. That is 4 more than 156. 4 Ans.
6. Given: Each card in a deck of cards contains a number between 2 and 6. The deck has 4 cards of each value. Two of the cards are chosen at random without replacement. Find: the probability that the sum of their values is less than 10.
There are less ways to get sums of 10 or more than less than 10, so letโs look at the probability of drawing those. We can draw 4 + 6, 5 + 5, 5 + 6 or 6 + 6 The probability of drawing two of the same
specific card is 420
ร 319
= 395
The probability of drawing a specific pair of
two different cards is 820
ร 419
= 895
So for the four possible sums of 10 or more, we have two that are the same number and two that are different numbers. The probability of picking one of these four
sums is 2 ร 395
+ 2 ร 895
= 2295
So the probability of drawing two cards whose sum is less than 10 is
1 โ 2295
= 7395
Ans.
7. Given: (๐ฅ๐ฅ2 + 3๐ฅ๐ฅ + 6)(๐ฅ๐ฅ2 + ๐๐๐ฅ๐ฅ + ๐๐) =
๐ฅ๐ฅ4 +๐๐๐ฅ๐ฅ2 + ๐๐ for integers ๐๐, ๐๐,๐๐,๐๐. Find: the product of ๐๐ and ๐๐. (๐ฅ๐ฅ2 + 3๐ฅ๐ฅ + 6)(๐ฅ๐ฅ2 + ๐๐๐ฅ๐ฅ + ๐๐) = ๐ฅ๐ฅ4 + ๐๐๐ฅ๐ฅ3 + ๐๐๐ฅ๐ฅ2 + 3๐ฅ๐ฅ3 + 3๐๐๐ฅ๐ฅ2 + 3๐ฅ๐ฅ๐๐ + 6๐ฅ๐ฅ2 + 6๐๐๐ฅ๐ฅ + 6๐๐ = ๐ฅ๐ฅ4 + (๐๐ + 3)๐ฅ๐ฅ3 + (๐๐ + 3๐๐ + 6)๐ฅ๐ฅ2 + (3๐๐ + 6๐๐)๐ฅ๐ฅ + 6๐๐ = ๐ฅ๐ฅ4 +๐๐๐ฅ๐ฅ2 + ๐๐ The coefficient of ๐ฅ๐ฅ3 must be 0. Therefore, ๐๐ + 3 = 0 ๐๐ = โ3 The coefficient of ๐ฅ๐ฅ2 is ๐๐. Therefore, ๐๐ = ๐๐ + 3๐๐ + 6 = ๐๐ + (3 ร โ3) + 6 = ๐๐ โ 9 + 6 = ๐๐ โ 3 The coefficient of ๐ฅ๐ฅ must be 0. Therefore, 3๐๐ + 6๐๐ = 0 3๐๐ + (6 รโ3) = 0 3๐๐ โ 18 = 0 3๐๐ = 18 ๐๐ = 6 ๐๐ = ๐๐ โ 3 = 6 โ 3 = 3 Finally, ๐๐ = 6๐๐ = 36
๐๐ ร ๐๐ = 3 ร 36 = 108 Ans.
8. Given: The polygon is constructed from two squares and six equilateral triangles, each of side length 6. The polygon can be folded into a polyhedron by creasing along the dotted lines and joining adjacent edges as indicated by the arrows. Find: the volume of the resulting polyhedron.
When you fold the polygon what you get is two square pyramids connected at an angle. The volume of the polyhedron is the sum of the volume of two identical square pyramids. The volume of a square pyramid
is ๐๐ = ๐๐2 โ3
where ๐๐ is a base edge and โ is the height. The base edge, ๐๐, is just 6. To find โ, we need to find half the diagonal of the square. Let ๐ฅ๐ฅ = half the diagonal of the square.
Then 62 + 62 = (2๐ฅ๐ฅ)2 36 + 36 = 4๐ฅ๐ฅ2 4๐ฅ๐ฅ2 = 72 ๐ฅ๐ฅ2 = 18 ๐ฅ๐ฅ = 3โ2 Now, we can determine the height. โ2 + ๐ฅ๐ฅ2 = 62
โ2 + ๏ฟฝ3โ2๏ฟฝ2
= 62 โ2 + 18 = 36 โ2 = 18 โ = 3โ2 The created polyhedron is twice the volume of the right square pyramid.
2๐๐ = 2๐๐2โ3
= 2(6)23โ2
3=
72โ2 Ans.
Team Round
1. Given: The end of each blade of a fan is two feet from the center of the fan. Each blade makes three full rotations per second. Find: the speed, in miles per hour, of the end of one of the blades. One rotation is 2๐๐๐๐ = 4๐๐ feet. The blade travels 12๐๐ feet in three rotations (one second) or 720๐๐ feet in one minute. It travels 43,200๐๐ feet in one hour. In miles per hour this is 43,200๐๐
5280โ 25.7
25.7 Ans.
2. Given: ๐ด๐ด,๐ด๐ด,๐ด๐ด,๐ท๐ท,๐ถ๐ถ in 0.๐ด๐ด๐ด๐ด๐ด๐ด and 0.๐ท๐ท๐ถ๐ถ represent the digits 1, 2, 3, 4 and 5, in some order. Find: the least possible absolute difference between the numbers 0.๐ด๐ด๐ด๐ด๐ด๐ด and 0.๐ท๐ท๐ถ๐ถ. To minimize the difference, we need to make 0.ABC as close to 0.DE as close in value as possible. The smallest possible difference between A and D is 1. If D < A, then we want to maximize the value of E and minimize the value of BC. The largest possible value for E is 5 and the
smallest value for BC is 12. This makes the absolute difference 0.412 โ 0.35 = 0.062. Similarly, if A < D, then we want to maximize BC and minimize E. The largest possible value for BC is 54 and the smallest possible value for E is 1. This makes the absolute difference 0.31 โ 0.254 = 0.056. The least possible absolute difference is 0.056 Ans.
3. Given: 70.8% of Earthโs surface is covered with water. Mars is entirely covered by land and the amount is approximately the same as the amount of land on Earth. Find: What percent of Earthโs radius is Marsโ radius? The surface area of a sphere is 4๐๐๐๐2 Let ๐๐๐ธ๐ธ = the radius of Earth. Let ๐๐๐๐ = the radius of Mars. Then 0.292 ร 4๐๐(๐๐๐ธ๐ธ)2 = 4๐๐(๐๐๐๐)2 0.292(๐๐๐ธ๐ธ)2 = (๐๐๐๐)2 ๐๐๐๐ โ 0.54037๐๐๐ธ๐ธ As a percentage, the radius of Mars is 54% of the radius of earth. 54% Ans.
4. Given: Billy wrote a sequence of 5 numbers, each an integer between 0 and 4. Penny wrote a sequence of five numbers that included the number of 0โs, 1โs, 2โs, 3โs and 4โs in Billyโs sequence. Pennyโs sequence is the same as Billyโs. Find: the sequence. The sum of all 5 numbers must be 5 because the sequence is a count of how many times each number appears and we know there are only 5 numbers total present in the sequence. You canโt have 5 of any number because 5 is not one of the numbers. You also canโt have 4 of any number since only one other number could be used. And weโre going to have to have
some values that we will have none of. For example, 11112 would translate to 04100. Similarly, you canโt have 3 of one number and 2 of another number or 3 of one number, one of another number and one of a third number. For example, 01112 would translate to 13100. Letโs look at 2 of one number, 2 of another number and 1 of a third number. 2 1 2 0 0 would translate to 2 1 2 0 0. 2 1 2 0 0 Ans.
5. Given: 3๐ฅ๐ฅ + 3๐ฅ๐ฅ+2 = 9๐ฅ๐ฅ + 9๐ฅ๐ฅ+2 Find: 3๐ฅ๐ฅ 3x + (3x32) = (3 ร 3)x + (3 ร 3)x(3 ร 3)2 3x(1 + 32) = 3x3x + 3x3x3232 3x(10) = 3x3x(1 + 34) 10 = 3x(82) 3x = 10/82 = 5/41 Ans.
6. Given: A dime has a mass of 2,268 grams. A nickel has a mass of 5,000 grams. Diane has a bag of dimes and Nick has a bag of nickels. Both bags of coins have the same mass. Find: how many times the total value of Nickโs coins is Dianeโs coins. Let ๐ฅ๐ฅ = the number of dimes. Let ๐ฆ๐ฆ = the number of nickels. 2268๐ฅ๐ฅ = 5000๐ฆ๐ฆ ๐ฅ๐ฅ๐ฆ๐ฆ
=50002268
โ 2.2045
There are 2.2045 times as many dimes as there are nickels. The value of dimes to
nickels is 10๐ฅ๐ฅ5๐ฆ๐ฆ
= 2 ๐ฅ๐ฅ๐ฆ๐ฆโ 4.409 โ 4.4 Ans.
7. Given: For each positive integer ๐๐,
๐๐๐๐ = 9๐๐ + 2 and ๐๐๐๐ = 7๐๐ + 3 The values common to both sequences are written as a sequence. The nth term can be expressed as pn+q.
Find: the value of ๐๐ โ ๐๐ Since an is multiples of 9 shifted by 2 and bn is multiples of 7 shifted by 3. We just need to find the first common term, then we know all common terms following that will just be 9 ร 7 = 63 more than the previous. Letโs compare the first few values of ๐๐๐๐: 11, 20, 29, 38, 47 to the first few values of ๐๐๐๐: 10, 17, 24, 31, 38, 45. The first common value is 38. So the sequence of common values will be represented by the formula 38 + 63(n โ 1) = 38 + 63n โ 63 = 63n โ 25. Therefore, the value of p is 63 and the value of q is โ25, and p โ q = 63 โ (โ25) = 88 Ans.
8. Given: Quadrilateral APBQ has vertices ๐ด๐ด(0,0) and ๐ด๐ด(8,0). Vertices P and Q lie on the line 4๐ฅ๐ฅ + 3๐ฆ๐ฆ = 19. ๐๐๐๐ = 3
Find: the area of quadrilateral ๐ด๐ด๐๐๐ด๐ด๐๐. The slope of the line 4x + 3y = 19 is โ4/3.
If we draw in a right triangle with hypotenuse PQ, then we know the ratio of its height to its base is equal to the slope, rise over run, of the line (note: we can ignore the negative because we are talking about distance without direction) or h/b = 4/3 โ h = 4/3 ร b.
We also know, since it is a right triangle, that b2 + h2 = 32. We have two equations and two variables, so we can solve for the values of h and b. b2 + (4/3 ร b)2 = 9 b2 + 16/9 ร b2 = 9 25/9 ร b2 = 9 b2 = 81/25 b = 9/5 Therefore, h = 4/3 ร 9/5 = 12/5. The area of the quadrilateral is the area of the triangle APB minus the area of triangle AQB. The difference in the height of these two triangles heights is h. So the area of the quadrilateral is 1/2 ร 8 ร h = 4 ร h = 4 ร 12/5 = 48/5 Ans.
9. Given: 8 blue and 5 orange tiles are arranged in an ordered line such that the tile on the left must be blue and every tile must be adjacent to at least one tile of the same color. Find: How many different arrangements are possible if all 13 tiles must be used? The requirements are that B (for blue) must me the first tile (starting from the left) and that Bโs and Oโs (for orange) must always come in a minimum of two tiles of the same color. We have 5 orange tiles so weโll be able to have them in one group of 2 and one group of 3 (since we canโt have a group of 1) and, of course, a group of 5. So letโs start with a group of 5 orange tiles. - BBBBBBBBOOOOO (#1) - BBBBBBOOOOOBB (#2) - BBBBBOOOOOBBB (#3) - BBBBOOOOOBBBB (#4) - BBBOOOOOBBBBB (#5) - BBOOOOOBBBBBB (#6) So much for the group of 5 tiles. Now letโs work with 2 orange tiles always come before the group of 3 orange tiles.
- BBOOBBOOOBBBB (#7) - BBOOBBBOOOBBB (#8) - BBOOBBBBOOOBB (#9) - BBOOBBBBBBOOO (#10) Move the 2 orange tiles to the right by 1. - BBBOOBBOOOBBB (#11) - BBBOOBBBOOOBB (#12) - BBBOOBBBBBOOO (#13) And one more move to the right. - BBBBOOBBOOOBB (#14) - BBBBOOBBBBOOO (#15) And one more to the right - BBBBBOOBBBOOO (#16) And one more - BBBBBBOOBBOOO (#17) Now letโs work with 3 orange tiles always before the 2 orange tiles. Inste - BBOOOBBOOBBBB (#18) - BBOOOBBBOOBBB (#19) - BBOOOBBBBOOBB (#20) - BBOOOBBBBBBOO (#21) Now move the group of 3 Oโs to the right by one tile. - BBBOOOBBOOBBB (#22) - BBBOOOBBBOOBB (#23) - BBBOOOBBBBBOO (#24) Now move the three tiles one more position to the right. - BBBBOOOBBOOBB (#25) - BBBBOOOBBBBOO (#26) And one more to the right. - BBBBBOOOBBBOO (#27) And one more - BBBBBBOOOBBOO (#28) 28 Ans.
10. Given: A fountainโs diameter is 10 feet. The grass extends out from the edge of the fountain 20 feet. Grass seed comes in bags that cover 300 sq. ft. of grass. Find: How many whole bags of grass seed are needed to seed around the fountain?
The radius of the fountain itself is 10
2= 5.
The radius of the entire area including the grass around the fountain is
20+10+202
= 502
= 25
The area of the fountain is ๐๐๐๐2 = ๐๐52 = 25๐๐ The area of the fountain and the grass is ๐๐252 = 625๐๐ This makes the area of the grass 625๐๐ โ 25๐๐ = 600๐๐ โ 1963.49375 square feet. Each bag of grass covers 300 square feet. 1963.49375
300โ 6.554979 bags.
This means we must have 7 bags to cover the area completely. 7 Ans.