MathDB

Ind. Round

Part of 2023 BmMT

Problems(1)

2023 BmMT Individual Round - Berkley mini Math Tournament

Source:

11/6/2023
p1. If xx is 20%20\% of 2323 and yy is 23%23\% of 2020, compute xyxy .
p2. Pablo wants to eat a banana, a mango, and a tangerine, one at a time. How many ways can he choose the order to eat the three fruits?
p3. Let aa, bb, and cc be 33 positive integers. If a+bc=116a + \frac{b}{c} = \frac{11}{6} , what is the minimum value of a+b+ca + b + c?
p4. A rectangle has an area of 1212. If all of its sidelengths are increased by 22, its area becomes 3232. What is the perimeter of the original rectangle?
p5. Rohit is trying to build a 33-dimensional model by using several cubes of the same size. The model’s front view and top view are shown below. Suppose that every cube on the upper layer is directly above a cube on the lower layer and the rotations are considered distinct. Compute the total number of different ways to form this model. https://cdn.artofproblemsolving.com/attachments/b/b/40615b956f3d18313717259b12fcd6efb74cf8.png
p6. Priscilla has three octagonal prisms and two cubes, none of which are touching each other. If she chooses a face from these five objects in an independent and uniformly random manner, what is the probability the chosen face belongs to a cube? (One octagonal prism and cube are shown below.) https://cdn.artofproblemsolving.com/attachments/0/0/b4f56a381c400cae715e70acde2cdb315ee0e0.png
p7. Let triangle ABC\vartriangle ABC and triangle DEF\vartriangle DEF be two congruent isosceles right triangles where line segments AC\overline{AC} and DF\overline{DF} are their respective hypotenuses. Connecting a line segment CF\overline{CF} gives us a square ACFDACFD but with missing line segments AC\overline{AC}, AD\overline{AD}, and DF\overline{DF}. Instead, AA and DD are connected by an arc defined by the semicircle with endpoints AA and DD. If CF=1CF = 1, what is the perimeter of the whole shape ABCFEDABCFED ? https://cdn.artofproblemsolving.com/attachments/2/5/098d4f58fee1b3041df23ba16557ed93ee9f5b.png
p8. There are two moles that live underground, and there are five circular holes that the moles can hop out of. The five holes are positioned as shown in the diagram below, where AA, BB, CC, DD, and EE are the centers of the circles, AE=30AE = 30 cm, and congruent triangles ABC\vartriangle ABC, CBD\vartriangle CBD, and CDE\vartriangle CDE are equilateral. The two moles randomly choose exactly two of the five holes, hop out of the two chosen holes, and hop back in. What is the probability that the holes that the two moles hop out of have centers that are exactly 1515 cm apart? https://cdn.artofproblemsolving.com/attachments/c/e/b46ba87b954a1904043020d7a211477caf321d.png
p9. Carson is planning a trip for nn people. Let xx be the number of cars that will be used and yy be the number of people per car. What is the smallest value of nn such that there are exactly 33 possibilities for xx and yy so that yy is an integer, x<yx < y, and exactly one person is left without a car?
p10. Iris is eating an ice cream cone, which consists of a hemisphere of ice cream with radius r>0r > 0 on top of a cone with height 1212 and also radius rr. Iris is a slow eater, so after eating one-third of the ice cream, she notices that the rest of the ice cream has melted and completely filled the cone. Assuming the ice cream did not change volume after it melted, what is the value of rr?
p11. As Natasha begins eating brunch between 11:3011:30 AM and 1212 PM, she notes that the smaller angle between the minute and hour hand of the clock is 2727 degrees. What is the number of degrees in the smaller angle between the minute and hour hand when Natasha finishes eating brunch 2020 minutes later?
p12. On a regular hexagon ABCDEFABCDEF, Luke the frog starts at point AA, there is food on points CC and EE and there are crocodiles on points BB and DD. When Luke is on a point, he hops to any of the five other vertices with equal probability. What is the probability that Luke will visit both of the points with food before visiting any of the crocodiles?
p13. 20232023 regular unit hexagons are arranged in a tessellating lattice, as follows. The first hexagon ABCDEFABCDEF (with vertices in clockwise order) has leftmost vertex AA at the origin, and hexagons H2H_2 and H3H_3 share edges CD\overline{CD} and DE\overline{DE} with hexagon H1H_1, respectively. Hexagon H4H_4 shares edges with both hexagons H2H_2 and H3H_3, and hexagons H5H_5 and H6H_6 are constructed similarly to hexagons H_2 and H3H_3. Hexagons H7H_7 to H2022H_{2022} are constructed following the pattern of hexagons H4H_4, H5H_5, H6H_6. Finally, hexagon H_{2023} is constructed, sharing an edge with both hexagons H2021 and H2022. Compute the perimeter of the resulting figure. https://cdn.artofproblemsolving.com/attachments/1/d/eaf0d04676bac3e3c197b4686dcddd08fce9ac.png
p14. Aditya’s favorite number is a positive two-digit integer. Aditya sums the integers from 55 to his favorite number, inclusive. Then, he sums the next 1212 consecutive integers starting after his favorite number. If the two sums are consecutive integers and the second sum is greater than the first sum, what is Aditya’s favorite number?
p15. The 100th100^{th} anniversary of BMT will fall in the year 21122112, which is a palindromic year. Compute the sum of all years from 00000000 to 99999999, inclusive, that are palindromic when written out as four-digit numbers (including leading zeros). Examples include 20022002, 19911991, and 01100110.
p16. Points AA, BB, CC, DD, and EE lie on line rr, in that order, such that DE=2DCDE = 2DC and AB=2BCAB = 2BC. Let MM be the midpoint of segment AC\overline{AC}. Finally, let point PP lie on rr such that PE=xPE = x. If AB=8xAB = 8x, ME=9xME = 9x, and AP=112AP = 112, compute the sum of the two possible values of CDCD.
p17. A parabola y=x2y = x^2 in the xy-plane is rotated 180o180^o about a point (a,b)(a, b). The resulting parabola has roots at x=40x = 40 and x=48x = 48. Compute a+ba + b.
p18. Susan has a standard die with values 11 to 66. She plays a game where every time she rolls the die, she permanently increases the value on the top face by 11. What is the probability that, after she rolls her die 3 times, there is a face on it with a value of at least 77?
p19. Let NN be a 66-digit number satisfying the property that the average value of the digits of N4N^4 is 55. Compute the sum of the digits of N4N^4.
p20. Let O1O_1, O2O_2, ......, O8O_8 be circles of radius 11 such that O1O_1 is externally tangent to O8O_8 and O2O_2 but no other circles, O2O_2 is externally tangent to O1O_1 and O3O_3 but no other circles, and so on. Let CC be a circle that is externally tangent to each of O1O_1, O2O_2, ......, O8O_8. Compute the radius of CC.
PS. You had better use hide for answers. Collected [url=https://artofproblemsolving.com/community/c5h2760506p24143309]here.
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