Problem: A ( 2 1 , 2 2 ) , B ( 2 3 , 2 4 ) A ( log 2 β 1 , log 2 β 2 ) , B ( log 2 β 3 , log 2 β 4 ) C ( 2 7 , 2 8 ) C ( log 2 β 7 , log 2 β 8 ) β³ A B C β³ A B C
Answer Choices:
A. 2 3 7 log 2 β 7 3 β β
B. 2 3 7 log 2 β 7 β 3 β
C. 2 7 3 log 2 β 3 β 7 β
D. 2 11 7 log 2 β 7 β 1 1 β
E. 2 11 3 log 2 β 3 β 1 1 β
Solution:
Circumscribe β³ A B C β³ A B C A G C D A G C D D D y y B B A G βΎ A G C G βΎ C G E E F F
The area of rectangle A G C D A G C D 2 2 7 2 log 2 β 7 β³ A C G β³ A C G 2 7 log 2 β 7
Area β‘ ( β³ A B C ) = Area β‘ ( β³ A C G ) β Area β‘ ( β³ A B E ) β Area β‘ ( β³ B C F ) β Area β‘ ( B E G F ) . A r e a ( β³ A B C ) = A r e a ( β³ A C G ) β A r e a ( β³ A B E ) β A r e a ( β³ B C F ) β A r e a ( B E G F ) .
Note that
Area β‘ ( β³ A B E ) = 1 2 2 3 β
1 = 2 3 , Area β‘ ( β³ B C F ) = 1 2 ( 2 7 β 2 3 ) β
1 = 2 7 3 , and Area β‘ ( B E G F ) = ( 2 7 β 2 3 ) β
1 = 2 7 3 . β A r e a ( β³ A B E ) = 2 1 β log 2 β 3 β
1 = log 2 β 3 β , A r e a ( β³ B C F ) = 2 1 β ( log 2 β 7 β log 2 β 3 ) β
1 = log 2 β 3 7 β β , and A r e a ( B E G F ) = ( log 2 β 7 β log 2 β 3 ) β
1 = log 2 β 3 7 β . β
Therefore
Area ( β³ A B C ) = 2 7 β 2 3 β 2 7 3 β 2 7 3 = 2 ( 7 3 β
7 3 β
7 3 ) = ( B ) 2 3 7 . Area ( β³ A B C ) β = log 2 β 7 β log 2 β 3 β β log 2 β 3 7 β β β log 2 β 3 7 β = log 2 β β β β 3 β β
3 7 β β β
3 7 β 7 β β β β = ( B ) log 2 β 7 β 3 β β . β
OR OR
The area of triangle β³ A B C β³ A B C
1 2 det β‘ [ 1 0 1 1 2 3 2 1 2 7 3 ] = 1 2 det β‘ [ 1 0 1 β 1 2 3 0 β 2 2 7 0 ] = 1 2 det β‘ [ β 1 2 3 β 2 2 7 ] = 1 2 ( β 2 7 + 2 9 ) = 2 3 7 2 1 β d e t β£ β’ β‘ β 1 1 1 β 0 log 2 β 3 log 2 β 7 β 1 2 3 β β¦ β₯ β€ β β = 2 1 β d e t β£ β’ β‘ β 1 β 1 β 2 β 0 log 2 β 3 log 2 β 7 β 1 0 0 β β¦ β₯ β€ β = 2 1 β d e t [ β 1 β 2 β log 2 β 3 log 2 β 7 β ] = 2 1 β ( β log 2 β 7 + log 2 β 9 ) = log 2 β 7 β 3 β β
The cross product of two vectors in the x β y x β y z z A ( 0 , 1 , 0 ) , B ( 2 3 , 2 , 0 ) A ( 0 , 1 , 0 ) , B ( log 2 β 3 , 2 , 0 ) C ( 2 7 , 3 , 0 ) C ( log 2 β 7 , 3 , 0 ) z z
1 2 ( B β A ) Γ ( C β A ) = 1 2 ( 2 3 , 1 , 0 ) Γ ( 2 7 , 2 , 0 ) = 1 2 ( 1 β
0 β 0 β
2 , 2 7 β
0 β 2 3 β
0 , 2 3 β
2 β 1 β
2 7 ) = ( 0 , 0 , 2 3 β 2 7 ) = ( 0 , 0 , 2 3 7 ) . 2 1 β ( B β A ) β Γ ( C β A ) = 2 1 β ( log 2 β 3 , 1 , 0 ) Γ ( log 2 β 7 , 2 , 0 ) = 2 1 β ( 1 β
0 β 0 β
2 , log 2 β 7 β
0 β log 2 β 3 β
0 , log 2 β 3 β
2 β 1 β
log 2 β 7 ) = ( 0 , 0 , log 2 β 3 β log 2 β 7 β ) = ( 0 , 0 , log 2 β 7 β 3 β ) . β
Thus the area of the triangle is ( B ) 2 3 7 ( B ) log 2 β 7 β 3 β β
OR OR
Define the points H ( 0 , 2 ) , I ( 0 , 3 ) H ( 0 , 2 ) , I ( 0 , 3 ) J ( 2 3 , 3 ) J ( log 2 β 3 , 3 )
Then H B C I H B C I β³ C J B β³ C J B
2 3 > 2 7 = 1 2 2 7 , log 2 β 3 > log 2 β 7 β = 2 1 β log 2 β 7 ,
point B B A C A C
Area β‘ ( β³ A B C ) = Area β‘ ( β³ A B H ) + Area β‘ ( H B C I ) β Area β‘ ( β³ A C I ) = 1 2 2 3 + 1 2 ( 2 7 β 2 3 ) + 2 3 β 2 7 = 2 3 β 1 2 2 7 = ( B ) 2 3 7 . A r e a ( β³ A B C ) β = A r e a ( β³ A B H ) + A r e a ( H B C I ) β A r e a ( β³ A C I ) = 2 1 β log 2 β 3 + 2 1 β ( log 2 β 7 β log 2 β 3 ) + log 2 β 3 β log 2 β 7 = log 2 β 3 β 2 1 β log 2 β 7 = ( B ) log 2 β 7 β 3 β β . β
The problems on this page are the property of the MAA's American Mathematics Competitions
