Difference between revisions of "1983 AHSME Problems/Problem 30"

(Created page with "Since <math>\angle CAP = \angle CBP = 10^\circ</math>, quadrilateral <math>ABPC</math> is cyclic. [asy] import geometry; import graph; unitsize(2 cm); pair A, B, C, M, N, P...")
 
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Since <math>\angle CAP = \angle CBP = 10^\circ</math>, quadrilateral <math>ABPC</math> is cyclic.
 
Since <math>\angle CAP = \angle CBP = 10^\circ</math>, quadrilateral <math>ABPC</math> is cyclic.
  
[asy]
+
<asy>
 
import geometry;
 
import geometry;
 
import graph;
 
import graph;
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draw(circumcircle(A,B,C),dashed);
 
draw(circumcircle(A,B,C),dashed);
  
label("<math>A</math>", A, W);
+
label("$A$", A, W);
label("<math>B</math>", B, E);
+
label("$B$", B, E);
label("<math>C</math>", C, S);
+
label("$C$", C, S);
label("<math>M</math>", M, SW);
+
label("$M$", M, SW);
label("<math>N</math>", N, SE);
+
label("$N$", N, SE);
label("<math>P</math>", P, S);
+
label("$P$", P, S);
[/asy]
+
</asy>
  
 
Since <math>\angle ACM = 40^\circ</math>, <math>\angle ACP = 140^\circ</math>, so <math>\angle ABP = 40^\circ</math>. Then <math>\angle ABC = \angle ABP - \angle CBP = 40^
 
Since <math>\angle ACM = 40^\circ</math>, <math>\angle ACP = 140^\circ</math>, so <math>\angle ABP = 40^\circ</math>. Then <math>\angle ABC = \angle ABP - \angle CBP = 40^

Revision as of 14:14, 8 August 2018

Since $\angle CAP = \angle CBP = 10^\circ$, quadrilateral $ABPC$ is cyclic.

[asy] import geometry; import graph;  unitsize(2 cm);  pair A, B, C, M, N, P;  M = (-1,0); N = (1,0); C = (0,0); A = dir(140); B = dir(20); P = extension(A, A + rotate(10)*(C - A), B, B + rotate(10)*(C - B));  draw(M--N); draw(arc(C,1,0,180)); draw(A--C--B); draw(A--P--B); draw(A--B); draw(circumcircle(A,B,C),dashed);  label("$A$", A, W); label("$B$", B, E); label("$C$", C, S); label("$M$", M, SW); label("$N$", N, SE); label("$P$", P, S); [/asy]

Since $\angle ACM = 40^\circ$, $\angle ACP = 140^\circ$, so $\angle ABP = 40^\circ$. Then $\angle ABC = \angle ABP - \angle CBP = 40^ \circ - 10^\circ = 30^\circ$.

Since $CA = CB$, triangle $ABC$ is isosceles, and $\angle BAC = \angle ABC = 30^\circ$. Then $\angle BAP = \angle BAC - \angle CAP = 30^\circ - 10^\circ = 20^\circ$. Hence, $\angle BCP = \angle BAP = \boxed{20^\circ}$.