x ≥ 6
{x| x ≥ 6} or the interval [6,∞).
All real numbers that are greater than or equal to zero
This is a function. Functions are used in trigonometry and algebra equations. They are also used in calculus to find out a series of numbers.
No. The domain is usually the set of Real numbers whereas the range is a subset comprising Real numbers which are either all greater than or equal to a minimum value (or LE a maximum value).
2x -5 ≥ 32x ≥ 8x ≥ 4The solution set are all real numbers greater than or equal to 4, or you can write the answer as{x| x ≥ 4} or [4,∞) .
The real numbers greater than or equal to -2, represented by {x: x >= -2 }, is a set. A set is simply a group of things, which you can ask if a particular element is in that set. For example, 17.273 is in {x: x >= -2}, but "apple" is not in {x: x >= -2}. In this case, the set {x: x >= -2} contains all the real numbers that are greater than or equal to -2 and nothing else.
{x| x ≥ 6} or the interval [6,∞).
Since it is an inequality, there is no way to solve for x. It equals all real numbers.
2x + 3 > 72x + 3 - 3 > 7 - 32x > 42x/2 > 4/2x > 2The solution is all real numbers greater than 2.
All real numbers that are greater than or equal to zero
Rephrase your question. You gave an equality, not an inequality. ◄
7x - 7 ≥ 8 (add 7 to both sides)7x ≥ 15 (divide to both sides by 7)x ≥ 15/7 or 2 1/7All real numbers greater than or equal to 15/7 are solutions.Graph on a number line all real numbers to the right of 15/7, and use a closed dot to indicate that 15/7 is a solution.
Well "real numbers" are whole numbers greater than or equal to 0. Therefore, they cannot be negative or have decimals. So in this case, the answer would be: 10 <= x < infinity
The answer to this is 2, and 0.
A real number is any whole number, so -3,-2,-1,0,1,2,9,10,32,45, and 23,405,868 are real numbers. A positive number is any number greater or equal to zero.
This is a function. Functions are used in trigonometry and algebra equations. They are also used in calculus to find out a series of numbers.
An inequality, like an equation, can have a different number of solutions depending on the inequality and the domain.For example, x2< 0 has no solutions if the domain is the real numbers.x< 5 has only one solution ( = 4) if the domain consists of the squares of positive even numbers.x < 5 has infinitely many solutions if the domain is the rational numbers or real numbers.An inequality, like an equation, can have a different number of solutions depending on the inequality and the domain.For example, x2< 0 has no solutions if the domain is the real numbers.x< 5 has only one solution ( = 4) if the domain consists of the squares of positive even numbers.x < 5 has infinitely many solutions if the domain is the rational numbers or real numbers.An inequality, like an equation, can have a different number of solutions depending on the inequality and the domain.For example, x2< 0 has no solutions if the domain is the real numbers.x< 5 has only one solution ( = 4) if the domain consists of the squares of positive even numbers.x < 5 has infinitely many solutions if the domain is the rational numbers or real numbers.An inequality, like an equation, can have a different number of solutions depending on the inequality and the domain.For example, x2< 0 has no solutions if the domain is the real numbers.x< 5 has only one solution ( = 4) if the domain consists of the squares of positive even numbers.x < 5 has infinitely many solutions if the domain is the rational numbers or real numbers.