10xn=50.3
By Trail and Error methodlet us assume thatN(N-1)=tafter adding : (N+X)(N+X-1)=t+46then u will get N=11,X=2
it eqauls 0.8 10 divided 8
It can, but only if the line drawn is a curve. ---------------------------------------------------------------------------------- The function is a polynomial of the form: y = f(x) = a{0} + a₁x + a₂x² + a₃x³ + ...... a{n}xⁿ = Σa{i}xⁱ for i = 0, 1, 2, 3, ..., n (Note a{r} is my way of writing "a subscript r", eg a{1} = a₁, and each a{n} is the coefficient of the xⁿ term.) The x-intercept is where y = 0 and there are n values of x for which the polynomial's value is 0 (some of which may be complex values, eg f(x) = x² + 1 has solutions for f(x) = 0 where x = ±i). However to be a function there must only be one y value for each x value (there can be more than one instance of any y value, ie there can be more than one x value that have the same y value, eg y = x² has y = 4 for x = ±2). Thus there will only be one y value for x = 0, ie only one y-intecept.
log 1 = 0 if log of base 10 of a number, N, is X logN = X means 10 to the X power = N 10^x = 1 x = 0 since 10^0 = 1
n=0.027
when -n = x and x is a negative #, n is the absolute value of x
0.007 x 100 = 0.7
10xn=50.3
point
point
The value of k x l x m x n is the product of all four variables: k, l, m, and n. To find the final value, you would simply multiply the numerical values of k, l, m, and n together. This operation follows the commutative property of multiplication, meaning you can multiply the numbers in any order and still get the same result.
The equation you provided can be written as: x = n + √3 This equation states that the value of "x" is equal to another number "n" plus the square root of 3 (√3). The variable "n" represents a constant number, while "x" can take any value depending on the value of "n." For example, if n = 2, then: x = 2 + √3 ≈ 3.732 If n = 5, then: x = 5 + √3 ≈ 6.732 The equation represents a relationship between "x" and "n," where "n" acts as an offset or a starting point, and "x" is the result of adding the square root of 3 to "n."
3
the answer is 3(n + 41052)
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".
Mean absolute deviation = sum[|x-mean(x)|]/n Where mean(x) = sum(x)/n and n is the number of observations. |y| denotes the absolute value of y.