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4 min read•june 18, 2024
Now that you’ve learned how to find derivatives of polynomial equations, it’s time to learn how to find derivatives of special functions including , , , and . Finding these derivatives are relatively simple as long as you can remember the rules. 👍
Before we get into each individual rule, here’s a quick table summarizing them.
Function | Derivative |
Sine Function: | |
Cosine Function: | |
Exponential Function: | |
Natural Logarithm Function: |
The derivative of will always be . Let’s look at an example:
When finding the derivative of this equation, we need to find the derivative of and separately.
Since the derivative of , the derivative of the first part of the equation is . The derivative of is . Therefore .
The derivative of will always be . Let’s look at an example:
When finding the derivative of this equation, we need to find the derivative of and separately.
To find the derivative of , we need to know that the derivative of is . Therefore, the derivative of the first part of the equation is . The derivative of 3 is 0, as explained in an earlier lesson discussing the constant rule. Therefore the derivative of the above equation is .
This one is pretty straightforward. The derivative of is simply… ! That’s right, the derivative of is just itself. 🤯
Here’s an example:
The derivative of the first part of the equation is , since we just stated that the derivative of is itself. The derivate of the second part of the equation is , according to the power rule. Therefore, .
The derivative of is . Let’s look at an example:
The derivative of the first part of the equation is since we know that the derivative of is . The derivative of = , so .
These rules take a little bit of practice, but once you memorize them, it gets simpler! You got this. 🍀
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