The shaded area of the graph of an inequality show the solution to the inequality. For example, if the area below y = x is shaded it is showing those ordered pairs which solve y < x.
If you're given the inequality and the equation, then the way to prove that they have the same solution is to solve each one and show that the solutions are the same number. Don't strain yourself, though. An inequality and an equation never have the same solution.
Linear inequalities in two variables involve expressions that use inequality symbols (such as <, >, ≤, or ≥), while linear equations in two variables use an equality sign (=). The solution to a linear equation represents a specific line on a graph, while the solution to a linear inequality represents a region of the graph, typically shaded to show all the points satisfying the inequality. Moreover, linear inequalities allow for a range of values, whereas linear equations specify exact values for the variables.
To solve the compound inequality ( y - 2 < -5 ) or ( y - 2 > 5 ), we start by isolating ( y ) in each inequality. For ( y - 2 < -5 ): [ y < -3 ] For ( y - 2 > 5 ): [ y > 7 ] Thus, the solution set is ( y < -3 ) or ( y > 7 ). To graph this, draw a number line with open circles at -3 and 7, shading to the left of -3 and to the right of 7 to represent the solution set.
No. An inequality will show two expressions that aren't equal.
The shaded area of the graph of an inequality show the solution to the inequality. For example, if the area below y = x is shaded it is showing those ordered pairs which solve y < x.
To provide a solution, I need the specific inequality you are referring to. Please provide the full inequality so I can assist you better.
A graph can illustrate what solution is saturated and unsaturated. If the point is on the line, then the solution is saturated, while if is below the line, the solution is unsaturated.
lol
If you're given the inequality and the equation, then the way to prove that they have the same solution is to solve each one and show that the solutions are the same number. Don't strain yourself, though. An inequality and an equation never have the same solution.
To solve the compound inequality ( y - 2 < -5 ) or ( y - 2 > 5 ), we start by isolating ( y ) in each inequality. For ( y - 2 < -5 ): [ y < -3 ] For ( y - 2 > 5 ): [ y > 7 ] Thus, the solution set is ( y < -3 ) or ( y > 7 ). To graph this, draw a number line with open circles at -3 and 7, shading to the left of -3 and to the right of 7 to represent the solution set.
A scatter graph is good because it can show two pieces of information at once! :)
No, it is not.
line graph
Cuz is math in variable has to be true in good to be with the graph or u know messed up the graph
No. An inequality will show two expressions that aren't equal.
they both show in crease but a line graph may show decrease