In this case N is variable for a math sentence. If the equation is n+7=9 n would equal 2.
try this one 25 + n
After dropping n times the value is V(n) = V(0)*(5/6)^n.
12n + 8 = 11 12n = 3 n = 1/4
The expression is: n/8
There are infinitely many possible answers, eg:n + 8n² - 6n + 8n³ - 12n² + 44n - 48
70
Find the value of the expression.
Unless you have a value of n, it would just be the expression: n + 91.
try this one 25 + n
To find the value of (n-2)^2 + n-1 when n=4, we simply substitute 4 for n in the expression: (n-2)^2 + n-1 When we do this, the expression becomes: (4-2)^2 + 4-1 Now we need to simplify the expression within the parentheses first. The expression within the parentheses is (4-2)^2, which means we need to subtract 2 from 4 and then square the result. So, we get: 2^2 Which equals 4. Now we can substitute this value back into the original expression to get: 4 + 4-1 Next, we simplify the expression 4-1, which equals 3. So, the expression becomes: 4 + 3 And we can simplify that further to get: 7 So, when n=4, the value of (n-2)^2 + n-1 is 7
The answer depends on what n is. It could be the value to position rule.
Without an equality sign the given expression is not an equation.
(5n - 20) It's a binomial expression in 'n'. Its numerical value depends on the numerical value of 'n'.
It is n + 14920, an expression which cannot be simplified; nor can it be evaluated without the value of n.
5n if n = 7 is 5 x 7, or 35.
The product of 0.1 and n is usually just written 0.1n; as an expression, this can't be simplified. The actual numerical value depends on the value of "n".
"n cubed" is not an algebra problem, since it asks no question. It's an "expression", whose numerical value depends on the value of ' n '.