The variable expression "6w" can be described as a "monomial," which is a single term consisting of a coefficient (6) and a variable (w). It represents the product of the number 6 and the variable w. In algebra, it indicates that the value of the expression changes depending on the value assigned to the variable w.
The variable expression that represents the phrase "the sum of the number of dogs and the 6 cats" is ( d + 6 ), where ( d ) is the number of dogs. This expression adds the number of dogs to the fixed number of cats, which is 6.
In the expression (6x), (x) is a variable, and it represents an unknown value that can change. The coefficient (6) is a constant multiplier of the variable (x). Together, (6x) is considered a linear expression because it describes a linear relationship between the constant (6) and the variable (x).
The variable expression that represents the phrase "the sum of the number of dogs and the 6 cats" can be written as ( d + 6 ), where ( d ) represents the number of dogs. Here, you simply add the number of dogs to the constant number of cats (which is 6) to express the total.
the letter in 2x+6. The variable is the x.
A variable expression for 6 divided by z is written as ( \frac{6}{z} ). This expression represents the division of the constant 6 by the variable ( z ). It can also be expressed as ( 6z^{-1} ), indicating that ( z ) is in the denominator.
6w
Which phrase describes the variable expression 6.w
The variable expression that represents the phrase "the sum of the number of dogs and the 6 cats" is ( d + 6 ), where ( d ) is the number of dogs. This expression adds the number of dogs to the fixed number of cats, which is 6.
In the expression (6x), (x) is a variable, and it represents an unknown value that can change. The coefficient (6) is a constant multiplier of the variable (x). Together, (6x) is considered a linear expression because it describes a linear relationship between the constant (6) and the variable (x).
The algebraic expression ( 7 + \frac{6}{k} ) can be expressed in words as: "Seven plus six divided by k." This phrase describes the operation of adding 7 to the result of dividing 6 by ( k ).
The variable expression that represents the phrase "the sum of the number of dogs and the 6 cats" can be written as ( d + 6 ), where ( d ) represents the number of dogs. Here, you simply add the number of dogs to the constant number of cats (which is 6) to express the total.
the letter in 2x+6. The variable is the x.
A variable expression for 6 divided by z is written as ( \frac{6}{z} ). This expression represents the division of the constant 6 by the variable ( z ). It can also be expressed as ( 6z^{-1} ), indicating that ( z ) is in the denominator.
The variable expression for "6 times a number p" is written as ( 6p ). This expression represents the product of the constant 6 and the variable ( p ). It can be used to calculate the value when ( p ) is known.
Well, darling, the expression that describes 6 times b is simply 6b. It's as straightforward as a stiff drink at a dive bar. No need to complicate things, honey. Just remember to keep that b in check and you'll be golden.
A variable expression for the product of 6 and 3 can be written as ( 6 \times 3 ) or simply ( 18 ). If you want to introduce a variable, you could represent it as ( 6x ) where ( x ) is equal to 3. Thus, the variable expression can also be written as ( 6 \cdot 3 ) or ( 6x ) with ( x = 3 ).
To provide the variable expression when ( n ) equals 6, we first need to know the specific variable expression in question. However, if we assume a general expression like ( 3n + 2 ), substituting ( n ) with 6 would yield ( 3(6) + 2 = 18 + 2 = 20 ). Please provide the specific expression for a more tailored response.