<PRE><B>Question 903672</B>
I don&#39;t know if there&#39;s an easy way to do this, but I did find what looks like an answer that makes sense, even though it took a rather large effort to find it.


you can find the slope of both lines by converting them to the slope intercept form of their equations.


x + 2y - 3 = 0 becomes y = -1/2x + 3/2


2x + y - 4 = 0 becomes y = -2x + 4


the slope of the first line is -1/2
the slope of the second line is -2


you can find each of the angles formed by these lines by finding their arctangents.


the angle formed by the first line is equal to arctan(-1/2) = -26.56505118 degrees.


the angle formed by the second line is equal to arctan(-2) = -63.43494882 degrees.


those would be the angles in quadrant 4.


those 2 lines intersect at the point (5/3, 2/3).


that intersection can be found by solving both equations simultaneously.


I chose the easy way and solved by graphing.


you could also solve by substitution or by elimination.


you&#39;ll get the same answer either way.


at that intersection point, you are looking at 2 lines that have a rather large obtuase angle between them.


to find the bisector of that angle, you first have to find that angle.


at least I think you do and that&#39;s the method I chose.


Those angles are found by looking at them in reference to the horizontal line that goes through their intersection point.


one of the angles is -26.56505118 degrees.
the other angle is is the quadrant 2 equivalent of -63.43494882 degrees.


the quadrant 2 equivalent of -63.43494882 degrees is equal to 116.5650512 degrees.


The large obtuse angle is therefore 116... + 63... which is equal to 143.1301024 degrees.


half of that is equal to 71.5650512 degrees.


the angle that you want to find the slope of is going to be 116.5650512 - 71.5650512 degrees which is equal to 45 degrees.


this angle is the same as the angle found by adding 71.5650512 to -26.5650512 degrees which is also equal to 45 degrees.


so the angle bisector of the obtuse angle appears to be 45 degrees which has a tangent of 1.


the slope of the line is therefore equal to 1.


the line will intersect at the point (5/3, 2/3).


solve for b in the equation of y = 1x + b when x = 5/3 and y = 2/3 and you get:


2/3 = 1 * (5/3) + b which becomes 2/3 = 5/3 + b which becomes b = -3/3 which becomes b = -1.


the equation of the line that bisects the obtuse angle is therefore equal to:


y = x - 1


the following graph shows all 3 lines and it should be fairly easy to see that the line y = x - 1 appears to bisect the obtuse angle formed by the intersection of the other 2 lines.


&lt;img src = &quot;http://theo.x10hosting.com/2014/092001.jpg&quot; alt=&quot;$$$&quot; &lt;/&gt;


I&#39;m reasonably confident the answer is correct even if I had to go through hoops to find it.


I tried to think of an easier way to do it but drew a blank.
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