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How do you tell a linear inequality from a quadratic inequality?
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
Are there no real solutions if a quadratic function is 0?
If a quadratic function is 0 for any value of the variable, then that value is a solution.
What is the number that can replace a variable?
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.
What is the degree of a quadratic 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.
How many solution does a linear inequality in one variable have?
Inequalities tend to have infinitely many solutions.
Solve the inequality and enter your solution as an inequality comparing the variable to the solution -3 plus x10?
Solve the inequality and enter your solution as an inequality comparing the variable to the solution. -33+x<-33
How do you tell a linear inequality from a quadratic inequality?
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
Which compound inequality is graphed on the number line?
Any compound inequality, in one variable, can be graphed on the number line.
Are there no real solutions if a quadratic function is 0?
If a quadratic function is 0 for any value of the variable, then that value is a solution.
How do you decide if a number is a solution to the inequality?
Substitute the number in place of the variable, and see whether the inequality is then a true statement.
solve the inequality and enter your solution as an inequality comparing the variable to a number?
x>5
What is the solution to the math problem involving the keyword "quadratic equation"?
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.
What is the number that can replace a variable?
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.
When can you say that a number is called a solution in algebraic expression?
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.
What is the degree of a quadratic 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.
How many solution does a linear inequality in one variable have?
Inequalities tend to have infinitely many solutions.
Can you solve for a variable in an expression?
No, you can only simplify an expression. To solve for a variable, it must be in an equation.
