It could be x/16 or 16/x. The x could be substituted by any other letter, for example, y/16 or 16/y.
The algebraic expression for 84 divided by the number ( z ) is ( \frac{84}{z} ). This expression represents the quotient of 84 and the variable ( z ).
The English expression for the quotient of nine and the sum of a number and one is "nine divided by the sum of a number and one." This can also be written mathematically as ( \frac{9}{x + 1} ), where ( x ) represents the number.
The expression for the sum of ten and the quotient of a number ( x ) and 666 can be written as ( 10 + \frac{x}{666} ). This represents adding 10 to the result of dividing ( x ) by 666.
The expression "7r" is not a quotient; it represents a product of the number 7 and the variable r. A quotient is specifically the result of dividing one quantity by another, typically expressed as a fraction. For example, if you divide 7 by r, that would be a quotient, represented as 7/r.
n/16 - 3
An expression that represents the quotient of a number and 7 can be written as "x/7" where x is the number. This expression signifies dividing the number x by 7. In algebraic terms, it represents a fraction where the numerator is the number being divided and the denominator is 7.
12+(16/x)
The algebraic expression for 84 divided by the number ( z ) is ( \frac{84}{z} ). This expression represents the quotient of 84 and the variable ( z ).
The algebraic expression for "4 decreased by the quotient of a number and 7" can be represented as 4 - (x/7), where x is the variable representing the number. The expression first calculates the quotient of the number and 7 by dividing x by 7, and then subtracts that quotient from 4. This expression captures the mathematical operation described in the question.
The algebraic expression for "twice a number" would be 2x, where x represents the unknown number. To find the quotient of 2x and 6, you would divide 2x by 6, which simplifies to (2x) / 6. This can be further simplified to x / 3, which represents the final quotient of twice a number and 6 in algebraic expression.
I would say the anwser would be 11
The expression for the sum of ten and the quotient of a number ( x ) and 666 can be written as ( 10 + \frac{x}{666} ). This represents adding 10 to the result of dividing ( x ) by 666.
n/16 - 3
x/8
x+2=
n-4
x/15