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1 min read•june 18, 2024
Welcome to one of the most important theorems in all of calculus! In this key topic, we’ll explain what the two parts of the fundamental theorem of calculus (FTOC) are as well as explain the relationship between a definite integral and its antiderivative!
The first part of the FTOC states the relationship between antiderivatives and definite integrals. Now what does this mean? 🤔 Let’s write this out.
What the equation above represents is that if you take the derivative of an integral, you will be left with the inside function. This happens because differentiation and integration cancel each other out, leaving you with the inside function.
However, you need to be cautious! If the upper bound is not just , then you will have to substitute whatever the upper bound is for .
Find .
Using the FTOC, you can simplify the right side by taking the derivative of both sides. Therefore, .
Find .
Note that in this example, the upper bound is now . The only change that you will do to find will be to substitute for , instead of . Therefore .
📌 We actually already discussed this part of the fundamental theorem of calculus in key topic 6.4. For more information and examples, check it out here.
The second part of the FTOC is more frequently used to solve definite integrals. If a function is continuous on the interval and is an antiderivative of , then
In other words, this theorem tells us that to find the definite integral of a function over an interval, you can evaluate its antiderivative at the upper limit of the interval and subtract the antiderivative evaluated at the lower limit. Instead of finding the integral, you can just do simple subtraction! ➖
Here are some steps you can follow when solving a definite integral with the fundamental theorem of calculus:
Now, let’s put these steps to a test and apply them to a problem!
Evaluate the following integral.
According to the FTOC, to solve this definite integral, we would have to find the antiderivative of , then subtract the antiderivative of from the antiderivative of .
The final answer is because the antiderivative of is . Then we plugged in 5 and 0 for and got our final answer!
For some additional practice, complete each of these questions.
Before you move on to the answers, make sure you tried your best with these!
First, find an antiderivative of . An antiderivative of is . Then, use the theorem:
Find the integral of , which is . Now, you can calculate:
The integral of is itself! Therefore, we just have to apply the theorem.
Last but not least! The integral of is . Therefore…
Great work! 👏
With practice, you will be able to evaluate any definite integrals thrown your way! The FTOC will continue to be useful throughout all integral calculus, so be sure to practice to perfection! 🌟
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