Introduction to the derivative of n^x

Derivatives have a wide range of applications in almost every field of engineering and science. The n^x derivative is equal to the product of n^x and log n which can be calculated by following the rules of differentiation. Or, we can directly find the derivative formula of n^x by applying the first principle of differentiation. In this article, you will learn what the n^x derivative formula is and how to calculate the derivatives of n^x by using different approaches.

What is the derivative of n^x?

The derivative of n^x is equal to n^x log n. It measures the rate of change of the exponential function n^x. It is denoted by d/dx(n^x) which is a fundamental concept in calculus.

Knowing the formula for derivatives and understanding how to use it can be used in solving problems related to velocity, acceleration, and optimization. 

Derivative of n^x formula

The formula for derivative of f(x)=n^x is equal to the n^x log n, that is;

$f'(x) = \frac{d}{dx} (n^x) = n^x log n$

It is calculated by using the logarithmic differentiation.

How do you differentiate n^x?

There are multiple ways to prove the differentiation of n x. These are;

1. First Principle
2. Logarithmic differentiation
3. Quotient Rule

Each method provides a different way to compute the n^x differentiation. By using these methods, we can mathematically prove the formula for finding the differential of n^x.

Derivative of n power x by first principle

According to the first principle of derivative, the n^x derivative is equal to n^x log n. The derivative of a function by first principle refers to finding a general expression for the slope of a curve by using algebra. It is also known as the delta method. The derivative is a measure of the instantaneous rate of change, which is equal to,

$f’(x) = \lim_{h\to 0}\frac{f(x + h) - f(x)}{h}$

This formula allows us to determine the rate of change of a function at a specific point by using the limit definition of derivative.

Proof of n^x derivative formula by first principle

To prove the derivative of n^x by using first principle, replace f(x) by n^x. 

$f(x) = \lim_{h \to 0} \frac{f(x + h) - f(x)}{h}$

$f'(x) = \lim_{h \to 0} \frac{n^{x + h} - n^x}{h}$

Moreover,

$f'(x) = \lim_{h \to 0} \frac{n^x+n^h-n^x}{h}$

$f'(x) = \lim_{h \to 0} \frac{n^x(n^h-1)}{h}$

When h approaches to zero,

$\lim_{h\to 0}\frac{n^h-1}{h}=\log 2$

And,

$f'(x) = n^x \log n$

Hence the differentiation of n x is equal to n^x log n. Use our derivative by definition calculator to simplify above calculations easily. 

Derivative of n^x by Logarithmic Differentiation

Logarithmic differentiation is a technique of solving derivatives of logarithmic functions. A logarithmic function is the inverse of an exponential function and can be written using a base of 10. It is a method of finding derivatives of complex functions by applying logarithms.

Proof of differentiating of n^x by Logarithmic Differentiation

To differentiate of n^x by using the logarithmic differentiation, we start by assuming that,

$y = n^x$

Taking log on both sides.

$\log y=\log n^x$

$\log y=x \log n$

Now differentiating on the both sides, 

$\frac{d}{dx} (\log y) = \log n\frac{dx}{dx}$

Since the derivative of log x is equal to the reciprocal of x, therefore, 

$\frac{dy}{dx}.\frac{1}{y}= \log n$

Hence,

$\frac{dy}{dx} = y\log n$

Substituting the value of y, we get

$\frac{dy}{dx} = n^x\log n$

Hence we can derive the derivative of n x by using two derivative rules i.e. delta method and the logarithmic differentiation. You can also learn how to calculate the derivative of u^x by using the first principle of derivative.

How to find the derivatives of n^x with a calculator?

The easiest way of differentiating n^x is by using an online calculator. You can use our derivative calculator with steps for this. Here, we provide you a step-by-step way to calculate derivatives by using this tool.

1. Write the function as n^x in the enter function box. In this step, you need to provide input value as a function that you want to differentiate.
2. Now, select the variable by which you want to differentiate n^x. Here you have to choose x.
3. Select how many times you want to calculate the derivatives of n^x. In this step, you can choose 2 to calculate the second derivative, 3 for the third derivative and so on.
4. Click on the calculate button. After this step, you will get the derivative of x cube within a few seconds.

After completing these steps, you will receive the differential of n x within seconds. Using online tools like implicit differentiation calculator can make it much easier and faster to calculate derivatives, especially for complex functions.

Conclusion:

In conclusion, the derivative of n^x is n^x log n. The derivative measures the rate of change of a function with respect to its independent variable, and in the case of n^x, the derivative can be calculated using the first principle of derivative and the logarithmic differentiation.