don't know how to type the question so here's the link to the image.
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Thanks in advance :)
The First Fundamental Theorem of Calculus states that if a function is continuous on a closed interval and has a continuous derivative, then the definite integral of that function over that interval can be evaluated by finding the antiderivative of the function and evaluating it at the endpoints of the interval.
The Second Fundamental Theorem of Calculus is a direct consequence of the First Fundamental Theorem. It states that if a function is continuous on an interval and has an antiderivative, then the definite integral of the function over that interval can be evaluated by finding any antiderivative of the function and subtracting the value at the lower endpoint from the value at the upper endpoint.
The main difference between the two theorems is that the First Fundamental Theorem deals with the relationship between a function and its derivative, while the Second Fundamental Theorem deals with the relationship between a function and its antiderivative.
The First Fundamental Theorem of Calculus has many practical applications, such as calculating the area under a curve, finding the velocity of an object, and determining the total change in a quantity over a period of time. It is also used in fields such as economics, physics, and engineering.
While the First Fundamental Theorem of Calculus is a powerful tool for evaluating definite integrals, it does have some limitations. It can only be applied to continuous functions with continuous derivatives, and it does not work for improper integrals or functions with discontinuities. Additionally, the theorem assumes that the interval of integration is closed, meaning it includes the endpoints.