Difference between revisions of "2024 AMC 8 Problems/Problem 23"
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==Problem== | ==Problem== | ||
− | Rodrigo | + | Rodrigo has a very large sheet of graph paper. First he draws a line segment connecting point <math>(0,4)</math> to point <math>(2,0)</math> and colors the <math>4</math> cells whose interiors intersect the segment, as shown below. Next Rodrigo draws a line segment connecting point <math>(2000,3000)</math> to point <math>(5000,8000)</math>. How many cells will he color this time? |
+ | |||
+ | <asy> | ||
+ | |||
+ | draw((-1,5)--(-1,-1),gray(.8)); | ||
+ | draw((0,5)--(0,-1),gray(.8)); | ||
+ | draw((1,5)--(1,-1),gray(.8)); | ||
+ | draw((2,5)--(2,-1),gray(.8)); | ||
+ | draw((3,5)--(3,-1),gray(.8)); | ||
+ | draw((4,5)--(4,-1),gray(.8)); | ||
+ | draw((5,5)--(5,-1),gray(.8)); | ||
+ | |||
+ | draw((-1,5)--(5, 5),gray(.8)); | ||
+ | draw((-1,4)--(5,4),gray(.8)); | ||
+ | draw((-1,3)--(5,3),gray(.8)); | ||
+ | draw((-1,2)--(5,2),gray(.8)); | ||
+ | draw((-1,1)--(5,1),gray(.8)); | ||
+ | draw((-1,0)--(5,0),gray(.8)); | ||
+ | draw((-1,-1)--(5,-1),gray(.8)); | ||
+ | |||
+ | |||
+ | dot((0,4)); | ||
+ | label("$(0,4)$",(0,4),NW); | ||
+ | |||
+ | dot((2,0)); | ||
+ | label("$(2,0)$",(2,0),SE); | ||
+ | |||
+ | draw((0,4)--(2,0)); | ||
+ | |||
+ | draw((-1,0) -- (5,0), arrow=Arrow); | ||
+ | draw((0,-1) -- (0,5), arrow=Arrow); | ||
+ | |||
+ | filldraw((0,4)--(1,4)--(1,3)--(0,3)--cycle--black); | ||
+ | filldraw((0,3)--(1,3)--(1,2)--(0,2)--cycle--black); | ||
+ | |||
+ | |||
+ | |||
+ | </asy> | ||
==Solution 1== | ==Solution 1== |
Revision as of 15:12, 26 January 2024
Contents
Problem
Rodrigo has a very large sheet of graph paper. First he draws a line segment connecting point to point and colors the cells whose interiors intersect the segment, as shown below. Next Rodrigo draws a line segment connecting point to point . How many cells will he color this time?
draw((-1,5)--(-1,-1),gray(.8)); draw((0,5)--(0,-1),gray(.8)); draw((1,5)--(1,-1),gray(.8)); draw((2,5)--(2,-1),gray(.8)); draw((3,5)--(3,-1),gray(.8)); draw((4,5)--(4,-1),gray(.8)); draw((5,5)--(5,-1),gray(.8)); draw((-1,5)--(5, 5),gray(.8)); draw((-1,4)--(5,4),gray(.8)); draw((-1,3)--(5,3),gray(.8)); draw((-1,2)--(5,2),gray(.8)); draw((-1,1)--(5,1),gray(.8)); draw((-1,0)--(5,0),gray(.8)); draw((-1,-1)--(5,-1),gray(.8)); dot((0,4)); label("$(0,4)$",(0,4),NW); dot((2,0)); label("$(2,0)$",(2,0),SE); draw((0,4)--(2,0)); draw((-1,0) -- (5,0), arrow=Arrow); draw((0,-1) -- (0,5), arrow=Arrow); filldraw((0,4)--(1,4)--(1,3)--(0,3)--cycle--black); filldraw((0,3)--(1,3)--(1,2)--(0,2)--cycle--black); (Error making remote request. Unknown error_msg)
Solution 1
Let be the number of cells the line segment from to passes through. The problem is then equivalent to finding Sometimes the segment passes through lattice points in between the endpoints, which happens times. This partitions the segment into congruent pieces that pass through cells, which means the answer is Note that a new square is entered when the lines pass through one of the lines in the coordinate grid, which for happens times. Because and are relatively prime, no lattice point except for the endpoints intersects the line segment from to This means that including the first cell closest to The segment passes through cells. Thus, the answer is Alternatively, can be found by drawing an accurate diagram, leaving you with the same answer.
~BS2012
Video Solution 1 by Math-X (First fully understand the problem!!!)
https://www.youtube.com/watch?v=dqqAk-Cd_5M
~Math-X