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### The chain rule: introduction

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ln(x+2)-ln(x+1)=1

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**The derivative of ln x –** Part of calculus is memorizing the basic derivative rules like the product rule, the power rule, or the chain rule. One of the rules you will see come up often is the rule for the derivative of ln x. In the following lesson, we will look at some examples of how to apply this rule to finding different types of derivatives. We will also see how using the laws of logarithms can help make taking these kinds of derivatives even easier.

Let’s look at our first method, the chain rule. How does the chain rule work? Well, first of all, the chain rule is a formula for figuring out the composition of two or more functions. Let’s say we have a function with a complicated argument, like sin x2. The function is sine and the argument is x2. If the argument were simply x, we’d differentiate sin x and get cos x.

**Derivative Of ln x**

The derivative of ln(x) is a well-known derivative. This lesson will show us the steps involved in finding this derivative, and it will go over a real-world application that involves the derivative of ln(x).

**Derivative Of Ln(x) Steps to Solve**

We want to find the derivative of ln(x). The derivative of ln(x) is 1/x and is actually a well-known derivative that most put to memory. However, it’s always useful to know where this formula comes from, so let’s take a look at the steps to actually find this derivative.

To find the derivative of ln(x), the first thing we do is let y = ln(x). Next, we use the definition of a logarithm to write y = ln(x) in logarithmic form. The definition of logarithms states that y = log b (x) is equivalent to b y = x. Therefore, by the definition of logarithms and the fact that ln(x) is a logarithm with base e, we have that y = ln(x) is equivalent to e^y = x.

**y=ln(x) is equivalent to e^y=x**

Okay, just a few more steps, and we’ll have our formula! The next thing we want to do is treat y as a function of x, and take the derivative of each side of the equation with respect to x. We use the chain rule on the left-hand side of the equation to find the derivative. The **chain rule** is a rule we use to take the derivative of a composition of functions, and it has two forms.

The left hand side of the equation is e ^y, where y is a function of x, so if we let f(x) = e ^x and g(x) = y, then f(g(x)) = e ^y. Since the derivative of e to a variable (such as e ^x) is the same as the original, the derivative of f'(g(x)) is e ^y. Therefore, by the chain rule, the derivative of e y is e^y dy/dx. On the right-hand side we have the derivative of x, which is 1.

We have (e ^y) dy/dx = 1. Now, recall that e y = x. We’re going to use this fact to plug x into our equation for e y.

This gives us the equation (x)dy/dx = 1. We’re getting super close now! Are you as excited as I am? We can divide both sides of this equation by x to get dy/dx = 1/x. The last thing is to recall that y = ln(x) and plug this into our equation for y.We have (e^ y) dy/dx = 1. Now, recall that e ^y = x. We’re going to use this fact to plug x into our equation for e y.

Ta-da! Now, we see that d/dx ln(x) = 1/x, and now we know why this formula for the derivative of ln(x) is true. So what’s our solution? The derivative of ln(x) is 1 / x.

**Derivative Of Ln(x) Summary**

Remember the following points when finding the derivative of ln(x):

- The derivative of ln(x)ln(x) is 1x1x.
- In certain situations, you can apply the laws of logarithms to the function first and then take the derivative.
- Values like ln(5)ln(5) and ln(2)ln(2) are constants; their derivatives are zero.
- ln(x+y)ln(x+y) DOES NOT EQUAL ln(x)+ln(y)ln(x)+ln(y); for a function with addition inside the natural log, you need the chain rule.
- ln(x–y)ln(x–y) DOES NOT EQUAL ln(x)–ln(y)ln(x)–ln(y); for a function with subtraction inside the natural log, you need the chain rule.

**Derivative Of lnx^2**

**The Steps to Calculate**

Let’s look at our first method, the **chain rule**. How does the chain rule work? Well, first of all, the chain rule is a formula for figuring out the composition of two or more functions. Let’s say we have a function with a complicated argument, like sin x2. The function is sine and the argument is x2. If the argument were simply x, we’d differentiate sin x and get cos x.

To use the chain rule, we imagine the function has a simple argument and we write the derivative. In this example, the derivative of sin x2 is cos x2. And then, we multiply by the derivative of the argument. The derivative of x2 is 2x. Thus, using the chain rule, the derivative of sin x2 is cos x2 times 2x or just 2x cos x2.

**Step 1: Differentiate with the Chain Rule**

The derivative of ln x is 1/x, so the derivative of ln x2 is 1/x2 times the derivative of x2:

**Step 2: Simplify**Then, the derivative of x2 is 2x:

1/x2 times 2x can be written as 2x/x2.

Canceling the common x term:

**Step 1: Rewrite ln x2 Using Logarithm Properties**

Now, let’s look at our second method, the **properties of logarithms**, which are basically the properties or characteristics of exponents.

The logarithm of x to a power n equals n times the logarithm of x. Thus, ln x2 = 2 ln x.

**Step 2: Differentiate**

Leaving us with the derivative of ln x, which is 1/x The constant 2 comes out of the differentiation:

The 2 multiplied by 1/x is written as 2/x:

**Step 3: Simplify**

Thus, the derivative of ln x2 is 2/x. Note this result agrees with the plots of tangent lines for both positive and negative x. For x = 2, the derivative is 2/2 = 1, which agrees with the plot. And for x = -2, the derivative is 2/(-2) = -1, which agrees with the negative sloping tangent line at x = -2.

**Antiderivative Of ln x**

The integral (antiderivative) of lnx is an interesting one because the process to find it is not what you’d expect.

We will be using integration by parts to find ∫lnxdx:

∫udv=uv−∫vdu

Where u and v are functions of x.

Here, we let:

u=lnx→dudx=1x→du=1xdx and dv=dx→∫dv=∫dx→v=x

Making necessary substitutions into the integration by parts formula, we have:

∫lnxdx=(lnx)(x)−∫(x)(1xdx)

→(lnx)(x)−∫x(1xdx)

=xlnx−∫1dx

=**xlnx−x+C→**** (don’t forget the constant of integration!)**

**Derivative Of 1/lnx**

you can do this simply as ((lnx)−1)‘

=−(lnx)−2(lnx)‘

=−(lnx)−21x

=−1x(lnx)2

if you want to fiddle about with e and logs i suppose you could say that

1y=lnx

e1y=elnx=x

so

(e1y)‘=1

and

(e1y)‘=e1y(1y)‘

=e1y⋅−(1y2)y‘

So −e1y(1y2)y‘=1

y‘=−y2⋅1e1y

=−(1lnx)2⋅1x

=−1x(lnx)2

same but bit more involved and fiddly

**Derivative Of (lnx)^2**

Applying the chain rule, along with the derivatives d/dx ln(x)=1x and ddxx2=2x, we have

dydx=ddxln(x2)

=1x2(ddxx2)

=1x2(2x)

=2x

**Derivative Of lnx 3**

We can use one of the properties of logs that allow us to write it as:

y=3ln(x)

We can then derive as usual:

y‘=3⋅1x

We can also use the Chain Rule deriving the log first as it is and multiply by the derivative of the argument:

y‘=1x3⋅3x2= simplify:

=3x

**What is the derivative of a natural log?**

The exponential function has an inverse function, which is called the **natural logarithm** and is denoted ln(x).

**What is the derivative of ln 2 x?**

The answer is 0. The function, ln 2, is a constant. If you want to know the derivative of ln x at x = 2, then the answer is 1/2, since the derivative of f(x) = ln x is f'(x) = 1/x and when you evaluate that at x = 2, you get f'(2} = 1/2.

**What are ln and log?**

Usually, log(x) means the base 10 logarithm; it can also be written as log10(x). ln(x) means the base e logarithm; it can also be written as loge(x). ln(x) tells you what power you must raise e to obtain the number x.

**Where is the natural log defined?**

Given how the **natural log** is described in math books, there’s little “**natural**” about it: it’s **defined** as the inverse of an ex, a strange enough exponent already. … ln(x) (**Natural Logarithm**) is the time to reach the amount x, assuming we grew continuously from 1.0.

**What is the Derivative Of Ln(x)?**

The derivative of a log of a function. The derivative of logs with base other than e. First, let’s look at a graph of the log function with base e, that is: f(x) = log_{e}(x) (usually written “ln x”).

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## X 2 ln

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