Solving Definite Integrals with a TI-83 Plus

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To solve definite integrals on a TI-83 Plus, graph the function and access the math menu to use the integral command, entering the lower and upper bounds. Indefinite integrals cannot be computed on this calculator. An alternative method involves using the home screen, where you can access the fnInt function directly without graphing. Input the function, variable, and limits in the format fnInt(function, variable, lower limit, upper limit). This provides a straightforward way to calculate definite integrals efficiently.
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does anyone know how to solve definite integrals using a Ti-83 plus? my teacher said it's okay to use it to check your answer during a test, so if you know how, please let me know.

also, is it possible to do indefinite integrals using ti-83 plus calculator?
 
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It's possible to do definite integrals, but not indefinite.

First you must graph the function you want to take the integral of. Then, while you're in the graphing screen, go to the math menu. In there is the integral command, and it'll ask you for the lower bound and upper bound for the integral. Note that both of these must be within the graphing window.

--J
 
I have a Ti83plus, it doesn't do indefinite integral...
 
Since you make me actually find my 83 from the giant stack of crap on my desk...

Go to the Y= menu, set a function into Y1. Then, press 2nd / TRACE (CALC) / 7: \intf(x)dx. It will take you to the graphing screen and ask you for the boundaries. Put them in, and it spits out the answer at the bottom of the screen.

--J
 
Justin Lazear said:
Since you make me actually find my 83 from the giant stack of crap on my desk...

Go to the Y= menu, set a function into Y1. Then, press 2nd / TRACE (CALC) / 7: \intf(x)dx. It will take you to the graphing screen and ask you for the boundaries. Put them in, and it spits out the answer at the bottom of the screen.

--J
perfect! thanks
 
There's an easier way, without having to graph it. At the home screen go to MATH > 9:fnInt. Then type out the function *comma* variable to integrate wrt *comma* lower limit *comma* upper limit *end parentheses* *ENTER*.
Example:
fnInt(x^3+6x^2+2x,X,2,5)
 

Thread 'Leibniz Rule Videos on Digital-University'

Good morning I have been refreshing my memory about Leibniz differentiation of integrals and found some useful videos from digital-university.org on YouTube. Although the audio quality is poor and the speaker proceeds a bit slowly, the explanations and processes are clear. However, it seems that one video in the Leibniz rule series is missing. While the videos are still present on YouTube, the referring website no longer exists but is preserved on the internet archive...
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