2001 AMC 10 Problems/Problem 5: Difference between revisions
m →Problem |
Hashtagmath (talk | contribs) No edit summary |
||
| Line 2: | Line 2: | ||
How many of the twelve pentominoes pictured below have at least one line of symmetry? | How many of the twelve pentominoes pictured below have at least one line of symmetry? | ||
<asy> | |||
unitsize(5mm); | |||
defaultpen(linewidth(1pt)); | |||
draw(shift(2,0)*unitsquare); | |||
draw(shift(2,1)*unitsquare); | |||
draw(shift(2,2)*unitsquare); | |||
draw(shift(1,2)*unitsquare); | |||
draw(shift(0,2)*unitsquare); | |||
draw(shift(2,4)*unitsquare); | |||
draw(shift(2,5)*unitsquare); | |||
draw(shift(2,6)*unitsquare); | |||
draw(shift(1,5)*unitsquare); | |||
draw(shift(0,5)*unitsquare); | |||
draw(shift(4,8)*unitsquare); | |||
draw(shift(3,8)*unitsquare); | |||
draw(shift(2,8)*unitsquare); | |||
draw(shift(1,8)*unitsquare); | |||
draw(shift(0,8)*unitsquare); | |||
draw(shift(6,8)*unitsquare); | |||
draw(shift(7,8)*unitsquare); | |||
draw(shift(8,8)*unitsquare); | |||
draw(shift(9,8)*unitsquare); | |||
draw(shift(9,9)*unitsquare); | |||
draw(shift(6,5)*unitsquare); | |||
draw(shift(7,5)*unitsquare); | |||
draw(shift(8,5)*unitsquare); | |||
draw(shift(7,6)*unitsquare); | |||
draw(shift(7,4)*unitsquare); | |||
draw(shift(6,1)*unitsquare); | |||
draw(shift(7,1)*unitsquare); | |||
draw(shift(8,1)*unitsquare); | |||
draw(shift(6,0)*unitsquare); | |||
draw(shift(7,2)*unitsquare); | |||
draw(shift(11,8)*unitsquare); | |||
draw(shift(12,8)*unitsquare); | |||
draw(shift(13,8)*unitsquare); | |||
draw(shift(14,8)*unitsquare); | |||
draw(shift(13,9)*unitsquare); | |||
draw(shift(11,5)*unitsquare); | |||
draw(shift(12,5)*unitsquare); | |||
draw(shift(13,5)*unitsquare); | |||
draw(shift(11,6)*unitsquare); | |||
draw(shift(13,4)*unitsquare); | |||
draw(shift(11,1)*unitsquare); | |||
draw(shift(12,1)*unitsquare); | |||
draw(shift(13,1)*unitsquare); | |||
draw(shift(13,2)*unitsquare); | |||
draw(shift(14,2)*unitsquare); | |||
draw(shift(16,8)*unitsquare); | |||
draw(shift(17,8)*unitsquare); | |||
draw(shift(18,8)*unitsquare); | |||
draw(shift(17,9)*unitsquare); | |||
draw(shift(18,9)*unitsquare); | |||
draw(shift(16,5)*unitsquare); | |||
draw(shift(17,6)*unitsquare); | |||
draw(shift(18,5)*unitsquare); | |||
draw(shift(16,6)*unitsquare); | |||
draw(shift(18,6)*unitsquare); | |||
draw(shift(16,0)*unitsquare); | |||
draw(shift(17,0)*unitsquare); | |||
draw(shift(17,1)*unitsquare); | |||
draw(shift(18,1)*unitsquare); | |||
draw(shift(18,2)*unitsquare);</asy> | |||
<math> \textbf{(A)}\ 3 \qquad \textbf{(B)}\ 4 \qquad \textbf{(C)}\ 5 \qquad \textbf{(D)}\ 6 \qquad \textbf{(E)}\ 7 </math> | <math> \textbf{(A)}\ 3 \qquad \textbf{(B)}\ 4 \qquad \textbf{(C)}\ 5 \qquad \textbf{(D)}\ 6 \qquad \textbf{(E)}\ 7 </math> | ||
Revision as of 15:45, 27 April 2021
Problem
How many of the twelve pentominoes pictured below have at least one line of symmetry?
![[asy] unitsize(5mm); defaultpen(linewidth(1pt)); draw(shift(2,0)*unitsquare); draw(shift(2,1)*unitsquare); draw(shift(2,2)*unitsquare); draw(shift(1,2)*unitsquare); draw(shift(0,2)*unitsquare); draw(shift(2,4)*unitsquare); draw(shift(2,5)*unitsquare); draw(shift(2,6)*unitsquare); draw(shift(1,5)*unitsquare); draw(shift(0,5)*unitsquare); draw(shift(4,8)*unitsquare); draw(shift(3,8)*unitsquare); draw(shift(2,8)*unitsquare); draw(shift(1,8)*unitsquare); draw(shift(0,8)*unitsquare); draw(shift(6,8)*unitsquare); draw(shift(7,8)*unitsquare); draw(shift(8,8)*unitsquare); draw(shift(9,8)*unitsquare); draw(shift(9,9)*unitsquare); draw(shift(6,5)*unitsquare); draw(shift(7,5)*unitsquare); draw(shift(8,5)*unitsquare); draw(shift(7,6)*unitsquare); draw(shift(7,4)*unitsquare); draw(shift(6,1)*unitsquare); draw(shift(7,1)*unitsquare); draw(shift(8,1)*unitsquare); draw(shift(6,0)*unitsquare); draw(shift(7,2)*unitsquare); draw(shift(11,8)*unitsquare); draw(shift(12,8)*unitsquare); draw(shift(13,8)*unitsquare); draw(shift(14,8)*unitsquare); draw(shift(13,9)*unitsquare); draw(shift(11,5)*unitsquare); draw(shift(12,5)*unitsquare); draw(shift(13,5)*unitsquare); draw(shift(11,6)*unitsquare); draw(shift(13,4)*unitsquare); draw(shift(11,1)*unitsquare); draw(shift(12,1)*unitsquare); draw(shift(13,1)*unitsquare); draw(shift(13,2)*unitsquare); draw(shift(14,2)*unitsquare); draw(shift(16,8)*unitsquare); draw(shift(17,8)*unitsquare); draw(shift(18,8)*unitsquare); draw(shift(17,9)*unitsquare); draw(shift(18,9)*unitsquare); draw(shift(16,5)*unitsquare); draw(shift(17,6)*unitsquare); draw(shift(18,5)*unitsquare); draw(shift(16,6)*unitsquare); draw(shift(18,6)*unitsquare); draw(shift(16,0)*unitsquare); draw(shift(17,0)*unitsquare); draw(shift(17,1)*unitsquare); draw(shift(18,1)*unitsquare); draw(shift(18,2)*unitsquare);[/asy]](http://latex.artofproblemsolving.com/0/8/2/082aa547e6b283dd68e0d1c407fbe9b93aeb0eca.png)
Solution
Error creating thumbnail: Unable to save thumbnail to destination
The ones with lines over the shapes have at least one line of symmetry. Counting the number of shapes that have line(s) on them,
we find 
pentominoes.
See Also
| 2001 AMC 10 (Problems • Answer Key • Resources) | ||
| Preceded by Problem 4 |
Followed by Problem 6 | |
| 1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 • 16 • 17 • 18 • 19 • 20 • 21 • 22 • 23 • 24 • 25 | ||
| All AMC 10 Problems and Solutions | ||
These problems are copyrighted © by the Mathematical Association of America, as part of the American Mathematics Competitions. Error creating thumbnail: Unable to save thumbnail to destination
