Question #06927

1 Answer
Apr 6, 2017

I found #195.7m# but I am not really sure of my method. Anyway check it and also check my maths!!!

Explanation:

Ok it is in Geometry but I had to use trignometry as well.
The object is a kind of wedge and I used this picture as well:
enter image source here
I first consider the two triangles ( I assume them right triangles in C) CPA and CPB and using trigonometry I say that:
#H=Q sin(57^@)#
#H=S sin(31^@)#
#CA= S cos(31^@)#
#CB= Q cos(57^@)#

Where #Q and S# are the hipotenuses.
Then I consider triangle ABC (right at B) and apply and Pythagoras Theorem to get:
#CA^2=AB^2+BC^2#
or:
#S^2 cos^2(31^@)=300^2+Q^2 cos^2(57^@)# (1)
BUT:
#H=Q sin(57^@)#
#H=S sin(31^@)#
so that:
#Q=H/ sin(57^@)#
#S=H/ sin(31^@)#
that substituted into (1) give:
#H^2/ sin^2(31^@)cos^2(31^@)=300^2+H^2/ sin^2(57^@) cos^2(57^@)#
rearranging:
#H^2[cos^2(31^@)/sin^2(31^@)- cos^2(57^@)/sin^2(57^@)]=300^2#
doing some calculations I got:
#H^2=300^2/2.348#
#H=195.7#

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