Mathematics
Grade10
Easy
Question
The compound function that represents the graph is __________.
![](data:image/png;base64,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)
- x ≤ - 4 and x ≥ - 1
- - 4 ≤ x ≤ - 1
- - 4 < x < 0
- x ≥ - 4 or x ≤ -1
The correct answer is: x ≤ - 4 and x ≥ - 1
The inequality represented by the graph talks about the numbers less than or equal to -4 and greater than or equal to -1.
The inequalities will be x ≤ - 4 and x ≥ - 1
Hence, option(b) is the correct option.
Related Questions to study
Mathematics
Write a compound inequality for the given graph
![](data:image/png;base64,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)
Write a compound inequality for the given graph
![](data:image/png;base64,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)
MathematicsGrade10
Mathematics
Which inequality is the same as “pick a number between -3 and 7?”
Which inequality is the same as “pick a number between -3 and 7?”
MathematicsGrade10
Mathematics
Solve 12 < 2x < 28
Inequality reversed, if we multiply both side by -1
Solve 12 < 2x < 28
MathematicsGrade10
Inequality reversed, if we multiply both side by -1
Mathematics
A compound inequality including “and” has the solutions of ___________.
A compound inequality including “and” has the solutions of ___________.
MathematicsGrade10
Mathematics
The two inequalities form a ______________.
The two inequalities form a ______________.
MathematicsGrade10
Mathematics
Solve the inequality:
0.6x ≤ 3
Inequality reversed, if we multiply both side by -1
Solve the inequality:
0.6x ≤ 3
MathematicsGrade10
Inequality reversed, if we multiply both side by -1
Mathematics
Identify the inequality that matches the picture.
![](data:image/png;base64,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)
Identify the inequality that matches the picture.
![](data:image/png;base64,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)
MathematicsGrade10
Mathematics
Find the statement that best describes the inequality - 6 > - 12
Find the statement that best describes the inequality - 6 > - 12
MathematicsGrade10
10th-Grade-Math---USA
Solve the absolute value inequality 3|2x| + 1 > 25.
Solve the absolute value inequality 3|2x| + 1 > 25.
10th-Grade-Math---USAAlgebra
10th-Grade-Math---USA
Solve the absolute value equation 2|x + 3| = 5.
Solve the absolute value equation 2|x + 3| = 5.
10th-Grade-Math---USAAlgebra
10th-Grade-Math---USA
Solve the absolute value equation |2x + 3| - 5 = 4.
Solve the absolute value equation |2x + 3| - 5 = 4.
10th-Grade-Math---USAAlgebra
10th-Grade-Math---USA
Solve the inequality
.
Solve the inequality
.
10th-Grade-Math---USAAlgebra
10th-Grade-Math---USA
Solve the inequality
.
Solve the inequality
.
10th-Grade-Math---USAAlgebra
10th-Grade-Math---USA
Solve the compound inequality
.
Solve the compound inequality
.
10th-Grade-Math---USAAlgebra
10th-Grade-Math---USA
Solve the equation
.
Solve the equation
.
10th-Grade-Math---USAAlgebra