Yes - except in extreme cases.
It can be the whole of the Real Numbers: eg x2 > -3
It can be a single point eg x2 ≤ 0 gives x = 0
In a linear inequality the variable is only present raised to the first power (which is usually not explicitly shown). In a quadratic the square of the variable is present (or implied). The square can be implied in an inequality such as x + 1/x < 6 (x not 0) This is equivalent to x2 - 6x + 1 < 0
If a quadratic function is 0 for any value of the variable, then that value is a solution.
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.
The degree of a quadratic inequality is 2. This is because it involves a quadratic expression, typically in the form (ax^2 + bx + c ), where (a), (b), and (c) are constants and (a \neq 0). The inequality can be expressed as (ax^2 + bx + c < 0), (ax^2 + bx + c > 0), or similar forms, all of which are characterized by the highest exponent of the variable being 2.
Inequalities tend to have infinitely many solutions.
Solve the inequality and enter your solution as an inequality comparing the variable to the solution. -33+x<-33
In a linear inequality the variable is only present raised to the first power (which is usually not explicitly shown). In a quadratic the square of the variable is present (or implied). The square can be implied in an inequality such as x + 1/x < 6 (x not 0) This is equivalent to x2 - 6x + 1 < 0
Any compound inequality, in one variable, can be graphed on the number line.
If a quadratic function is 0 for any value of the variable, then that value is a solution.
Substitute the number in place of the variable, and see whether the inequality is then a true statement.
x>5
The solution to a math problem involving a quadratic equation is the values of the variable that make the equation true, typically found using the quadratic formula or factoring.
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.
An algebraic equation or inequality can have a solution, an algebraic expression cannot. If substituting a number in place of a variable results in the equation or inequality being a true statement, then that number is a solution of the equation or inequality.
The degree of a quadratic inequality is 2. This is because it involves a quadratic expression, typically in the form (ax^2 + bx + c ), where (a), (b), and (c) are constants and (a \neq 0). The inequality can be expressed as (ax^2 + bx + c < 0), (ax^2 + bx + c > 0), or similar forms, all of which are characterized by the highest exponent of the variable being 2.
Inequalities tend to have infinitely many solutions.
No, you can only simplify an expression. To solve for a variable, it must be in an equation.