ordered pair, or coordinates of a point
() x=y(x)xy(x)(x)=() (). X=
The Associative Law of Addition says that changing the grouping of numbers that are added together does not change their sum. This law is sometimes called the Grouping Property. Examples: x + (y + z) = (x + y) + z. Here is an example using numbers where x = 5, y = 1, and z = 7.
No.
It means that the value of the function, f(x), is negative when x = 0.
The first term must have an x value raised to an even root, such as x^2 or x^4. The middle term (if a trinomial) must be able to be made by adding together the factors of the coefficients of first and last terms. For example, x^2 +4x +4 can be factored into (x+2) x (x+2), or (x+2)^2
The vertex of this parabola is at -2 -3 When the y-value is -2 the x-value is -5. The coefficient of the squared term in the parabola's equation is -3.
The vertex of this parabola is at -3 -1 When the y-value is 0 the x-value is 4. The coefficient of the squared term in the parabolas equation is 7
x / (x+1) is an already simplified term. In order to "solve" it, you must either know the value of x, or set the entire term equal to some number.
what term does not represent the same data as the others?x-valueoutputrangesecond element
The distributive property is where you will "distribute" a term outside of a set of grouping symbols into all the terms within the set of grouping symbols. For example, to distribute 6(x+3), you would multiply 6 by x and by 3, to get 6x + 18. The distributive property is usually the property used most often to solve for variables in linear equations. For example, in the linear equation, 3(x+2)=4+x, you would have to distribute the 3, since x and 2 are not like terms.
A root or a zero of the polynomial.
There are several infinite series. To find PI to x digits, evaluate each term to x+2 digits until the value is 0. Then round to x digits.