It depends on whether the inequalities are strict or not.
It's pretty much always the point of a line because the soulution of the system is always an ordered pair where the two or more lines intersect
The intersection of two lines is always a point or the line itself. The intersection of a line with plane also the same as above.
No. Sometimes you are the first - unless you always jump the lights.
The intersection of 2 non-parallel planes is always a line.The intersection of 3 planes doesn't have to be a line, but it can be. If it is,then there are an infinite number of other planes that can also intersect thosethree along the same line.
The three angle bisectors in a triangle always intersect in one point, and this intersection point always lies in the interior of the triangle. The intersection of the three angle bisectors forms the center of the circle in- scribed in the triangle. (The circle which is tangent to all three sides.) The angle bisectors meet at the incenter which has trilinear coordinates.
included would be the solution...
No it is NOT always bounded. Here is an example of an unbounded one. 1. 2x-y>-2 2. 4x+y
It's pretty much always the point of a line because the soulution of the system is always an ordered pair where the two or more lines intersect
because everything is not always an equality.
The answer depends on which area is shaded for each inequality. I always teach pupils to shade the unwanted or non-feasible region. That way the solution is in the unshaded area. This is much easier to identify than do distinguish between a region which is shaded three times and another which is shaded four times.
The intersection of two lines is always a point or the line itself. The intersection of a line with plane also the same as above.
No, they do not.
ONLY a line can be formed by the intersection of two planes...and always.
YES. The intersection of two planes always makes a line. A line is at least two points.
No. It can be the whole line.
No, because the intersection of two equivalent sets will have a union the same size as its intersection.
yes, a solution is always a mixture