Q: What is the value of n if 23.2 X n 2320?

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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

Related questions

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

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.

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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.