A triangle has two corners with angles of # pi / 12 # and # pi / 12 #. If one side of the triangle has a length of #5 #, what is the largest possible area of the triangle?

2 Answers
sankarankalyanam
Oct 16, 2017

Largest area possible #**6.2506**#

Explanation:

Three angles are #pi/12, pi/12, (5pi)/6#
#a/sin a = b/ sin b = c/ sin c#

To obtain largest possible area,
Length 5 should be opposite to the angle with least value.
#5/sin (pi/12) = b/sin (pi/12) = c / sin ((5pi)/6)#
Side b = 5.
Side #c = (5*sin((5pi)/6)) / sin (pi/12)#
Side #c = (5*sin (pi/6))/sin (pi/12) = 5/(2*sin(pi/12))#
#c = 9.6593#
Area
#s= (5+5+9.6593)/2= 9.8297#
#A= sqrt(s(s-a)(s-b)(s-c))#

#=sqrt(9.8297*4.8297*4.8297*0.1704)#

Area #A = 6.2506#

sankarankalyanam
Oct 16, 2017

Area = 6.25

Explanation:

Alternate method :
Area of #Delta = (1/2)bh#
Given triangle is isosceles as two angles are #pi/12# each.
#:. h = 5*sin (pi/12)#
#(1/2)b .= 5*cos(pi/12)#
Area # = 5*5*sin(pi/12)*cos(pi/12)#
#=(25/2)*2sin(pi/12)cos(pi/12)#
#=(25/2)sin(pi/6) = (25/2)(1/2)=25/4=6.25#

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