3
3
The solution to a system of inequalities is where the solutions to each of the individual inequalities intersect. When given a set of graphs look for the one which most closely represents the intersection, this one will contain the most of the solution to the the system but the least extra.
Graph the following Inequalities: x > 3
True
Graph both equations on the same graph. Where they intersect is the solution to the system of equations
the equation graphs
If the lines intersect, then the intersection point is the solution of the system. If the lines coincide, then there are infinite number of the solutions for the system. If the lines are parallel, there is no solution for the system.
No it is NOT always bounded. Here is an example of an unbounded one. 1. 2x-y>-2 2. 4x+y
The solution to a system of inequalities is where the solutions to each of the individual inequalities intersect. When given a set of graphs look for the one which most closely represents the intersection, this one will contain the most of the solution to the the system but the least extra.
Graph the following Inequalities: x > 3
parallel
to solve a linear in equality you have to write it out on a graph if the line or shape is made ou of strate lines its linear
Solving linear systems means to solve linear equations and inequalities. Then to graph it and describing it by statical statements.
A graph of two simultaneous linear inequalities in two variables that have no intersecting regions must contain two lines with the same slope.
Two or more straight lines meeting at one point.
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False, think of each linear equation as the graph of the line. Then the unique solution (one solution) would be the intersection of the two lines.
Linear programming is just graphing a bunch of linear inequalities. Remember that when you graph inequalities, you need to shade the "good" region - pick a point that is not on the line, put it in the inequality, and the it the point makes the inequality true (like 0