It is a term.
One term that can be expressed as a real number, a variable, or the product or quotient of a variable and a real number is "monomial." A monomial is an algebraic expression that consists of a single term, which can be a constant (real number), a variable (like (x)), or a combination of both (such as (3x) or (\frac{5}{2}y^2)).
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.
Since the variable may be real or complex, there is no single word or phrase to describe such a thing.
The quotient of 15 and g is expressed as ( \frac{15}{g} ). This represents the result of dividing 15 by the variable g. If g is a non-zero number, this quotient can be calculated numerically. If g equals zero, the quotient is undefined.
The definition of an irrational number is that it cannot be expressed as the quotient of 2 integers, so no.
It is simply a variable term.
It is called a term.
A monomial.
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.
Since the variable may be real or complex, there is no single word or phrase to describe such a thing.
The quotient of 15 and g is expressed as ( \frac{15}{g} ). This represents the result of dividing 15 by the variable g. If g is a non-zero number, this quotient can be calculated numerically. If g equals zero, the quotient is undefined.
The definition of an irrational number is that it cannot be expressed as the quotient of 2 integers, so no.
To write the quotient of 16 and a number, you can represent the unknown number with a variable, such as ( x ). The expression for the quotient would then be ( \frac{16}{x} ). This indicates that 16 is being divided by the variable ( x ).
Every whole number can be expressed as the quotient or ratio of other whole numbers, and whole numbers ARE integers.
Putting a question mark at the end of a bunch of mathematical terms does not make it a meaningful question.
The product of 6 and a number y can be expressed as ( 6y ). This expression represents the multiplication of 6 by the variable y, which can take on different values.
This expression is expressed as 12 / x where x is any number. You select a variable and then, set up the expression. Since we have a quotient of two values, you are dividing the numbers altogether.