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  • 5.1: Construction Accurate Graphs of Antiderivatives
    https://math.libretexts.org/Bookshelves/Calculus/Book%3A_Active_Calculus_(Boelkins_et_al.)/05%3A_Finding_Antiderivatives_and_Evaluating_Integrals/5.01%3A_Construction_Accurate_Graphs_of_Antiderivatives
    Given the graph of a function f, we can construct the graph of its antiderivative F provided that (a) we know a starting value of F, say F(a), and (b) we can evaluate the integral R b a f (x) dx exact...Given the graph of a function f, we can construct the graph of its antiderivative F provided that (a) we know a starting value of F, say F(a), and (b) we can evaluate the integral R b a f (x) dx exactly for relevant choices of a and b. Thus, any function with at least one antiderivative in fact has infinitely many, and the graphs of any two antiderivatives will differ only by a vertical translation.
  • 4.1: Construction Accurate Graphs of Antiderivatives
    https://math.libretexts.org/Courses/Hope_College/Math_126_-_Calculus_with_Review_II/04%3A_Evaluating_Integrals/4.01%3A_Construction_Accurate_Graphs_of_Antiderivatives
    Given the graph of a function f, we can construct the graph of its antiderivative F provided that (a) we know a starting value of F, say F(a), and (b) we can evaluate the integral R b a f (x) dx exact...Given the graph of a function f, we can construct the graph of its antiderivative F provided that (a) we know a starting value of F, say F(a), and (b) we can evaluate the integral R b a f (x) dx exactly for relevant choices of a and b. Thus, any function with at least one antiderivative in fact has infinitely many, and the graphs of any two antiderivatives will differ only by a vertical translation.
  • 5.1: Construction Accurate Graphs of Antiderivatives
    https://math.libretexts.org/Under_Construction/Purgatory/Book%3A_Active_Calculus_(Boelkins_et_al.)/05%3A_Finding_Antiderivatives_and_Evaluating_Integrals/5.01%3A_Construction_Accurate_Graphs_of_Antiderivatives
    Given the graph of a function f, we can construct the graph of its antiderivative F provided that (a) we know a starting value of F, say F(a), and (b) we can evaluate the integral R b a f (x) dx exact...Given the graph of a function f, we can construct the graph of its antiderivative F provided that (a) we know a starting value of F, say F(a), and (b) we can evaluate the integral R b a f (x) dx exactly for relevant choices of a and b. Thus, any function with at least one antiderivative in fact has infinitely many, and the graphs of any two antiderivatives will differ only by a vertical translation.

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