The inequality equation that represents the interval − 2 , 2 and whether the interval is bounded or unbounded. The interval − 2 , 2 corresponds to − 2 ≤ x ≤ 2 and as a result, the interval is bounded. Explanation: The solution of the inequality equation is the set of all real numbers. The real number line representing the solution of the inequality is the graph of the inequality. Graphs of the inequality are intervals on the real number line. Each interval can be classified as bounded or unbounded. The unbounded interval is, the interval where the end of the solution set or both go to infinity. The bounded interval is the interval where, both lower and upper are real numbers. The interval − 2 , 2 corresponds to − 2 ≤ x ≤ 2 . The given interval is bounded since both its upper and lower limits are real numbers.
The inequality equation that represents the interval − 2 , 2 and whether the interval is bounded or unbounded. The interval − 2 , 2 corresponds to − 2 ≤ x ≤ 2 and as a result, the interval is bounded. Explanation: The solution of the inequality equation is the set of all real numbers. The real number line representing the solution of the inequality is the graph of the inequality. Graphs of the inequality are intervals on the real number line. Each interval can be classified as bounded or unbounded. The unbounded interval is, the interval where the end of the solution set or both go to infinity. The bounded interval is the interval where, both lower and upper are real numbers. The interval − 2 , 2 corresponds to − 2 ≤ x ≤ 2 . The given interval is bounded since both its upper and lower limits are real numbers.
Solution Summary: The author explains that the inequality equation represents the interval left[-2,2right] and whether it is bounded. The real number line representing the solution is the graph of inequality.
The inequality equation that represents the interval −2,2 and whether the interval is bounded or unbounded.
The interval −2,2 corresponds to −2≤x≤2 and as a result, the interval is bounded.
Explanation:
The solution of the inequality equation is the set of all real numbers. The real number line representing the solution of the inequality is the graph of the inequality. Graphs of the inequality are intervals on the real number line.
Each interval can be classified as bounded or unbounded.
The unbounded interval is, the interval where the end of the solution set or both go to infinity.
The bounded interval is the interval where, both lower and upper are real numbers.
The interval −2,2 corresponds to −2≤x≤2.
The given interval is bounded since both its upper and lower limits are real numbers.
6) A farmer has 60 acres on which to plant oats or corn. Each acre of oats requires 100 lbs of fertilizer and 1 hour
of labor. Each acre of corn requires 50 lbs of fertilizer and 2 hours of labor. The farmer has 5000 lbs of
fertilizer and 100 hours available for labor. If the profit is $60 from each acre of oats and $100 from each acre
of corn, what planting combination will produce the greatest total profit?
a) Fill in the following chart to help organize the information given in the problem:
Oats
Labor
Fertilizer
Land
Profit
b) Write down the question of interest.
Corn
Available
c) Define variables to answer the question of interest. Call these x and y.
d) Write the objective function to answer the question of interest.
e) List any constraints given in the problem.
I need help with number 5.
3) Use the following system of linear inequalities graphed below to answer the questions.
a) Use the graph to write the symbolic form of the system
of linear inequalities.
b) Is (-4,2) a solution to the system? Explain.
5
-7
-5
-3
-2
0
2
3
4
$
6
-2
-6
-7
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