If the number is N, then 3 more is N+3, set equal to 7: N+3=7
2*(n+15) = 6n
The equation for the statement "A number n is 5 more than 12" can be written as n = 12 + 5. This equation represents that the value of n is equal to 12 (the initial number) plus 5 (the additional amount). Therefore, n = 17 is the solution to the equation.
The expression for eleven decreased by a number can be written as 11 - x, where x represents the unknown number being subtracted from eleven. This expression represents the operation of subtraction, where the value of x will determine the final result after subtracting from eleven.
A number decreased by 4 is n-4
n usually represents and unknown variable
13-n=9. i think.
It is an equation which states that 3*(n/7) = 15It is an equation which states that 3*(n/7) = 15It is an equation which states that 3*(n/7) = 15It is an equation which states that 3*(n/7) = 15
It depends on what N represents.
n - 13 = 7
If the number is N, then 3 more is N+3, set equal to 7: N+3=7
n ∑(f(x)/n) x = 0 Where f(x) represents the xth element in the set you're averaging, and n represents the number of elements in that set.
if p represents your positive number, and n represents all of your negative numbers, then: |∑n| < p
2*(n+15) = 6n
The expression 4n + 25 is an example of a linear equation in one variable (n). It represents a relationship between n and an unknown constant.
In the ideal gas law equation PV = nRT, "n" represents the number of moles of gas present.
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.