No, it is part of the solution set.
An inequality with "and" is true if BOTH inequalities are true. Inequality with "or" is true if ONE of the inequalities are true.
is 0.85<0.58 is true
Answer 1 == In an open sentence (an equation or inequality with a variable in it), when a number replacing the variable makes the sentence true, then it is a solution.
True. In general, the product is not an integer.
any number that makes the inequality true
Although there are many numbers that may make an inequality true if something is greater than the other and the larger of the inequality relation is facing that side then it is true. 5>2 true 5<2 is false
It is the solution set.
Graph as though the inequality is an equality. Then, find a point on one side of the line and see if it makes the inequality true. If it is true then that side gets shaded.
Substitute the values of the variables into the inequality. If the inequality is true then they are a solution, if not, they are not.Substitute the values of the variables into the inequality. If the inequality is true then they are a solution, if not, they are not.Substitute the values of the variables into the inequality. If the inequality is true then they are a solution, if not, they are not.Substitute the values of the variables into the inequality. If the inequality is true then they are a solution, if not, they are not.
Each integer is different from every other integer since it represents a different quantity. Actually, this is true of every number.
Pick a test point, (the origin is the most convenient unless the line of the inequality falls on it), and plug it into the same linear inequality. If the test point makes the inequality true, then shade that side of the line. If the test point makes the inequality false, then shade the opposite side of the line.
that would be limited to 3 and -3 for values of x
No, it is part of the solution set.
It is the solution set for that particular inequality.
a solution of inequality
The question contains an expression, not an equality or inequality. An expression cannot be true (or untrue).