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8.3 Using Accumulation Functions and Definite Integrals in Applied Contexts

4 min readfebruary 15, 2024

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    Welcome to the third topic in Unit 8! In this key topic, we’ll be learning more about what an accumulation problem is and how to solve one. For a more in-depth review of how to take an integral, take a look at Unit 6!

    ⛰️ Accumulation Problems

    So before we learn how to solve an accumulation problem, we need to know what an accumulation problem is in the first place. The picture below is a visual representation of the graphical meaning of an integral. 📈 

    To calculate the integral of a function, you are essentially taking the area that is under the curve! More specifically in an accumulation problem, you are taking the integral of the rate of change function that you are given.

    Untitled

    Image Courtesy of Nagwa

    📝 Walkthrough of an Accumulation Problem

    This will be a very simple example to understand the concept of accumulation. You are given a velocity equation, which is v(t)=12t2v(t)=\frac{1}{2}t^2. How would you calculate the total displacement between t=0t=0 and t=3t=3?

    Here’s one way we can solve the problem, step by step.

    1️⃣ Identify the rate of change function.

    In this case, the rate of change function is velocity since we want to end up with time! ⏲️

    2️⃣ Set up the definite integral to evaluate.

    03v(t)dt=0312t2dt\int_{0}^{3}v(t)dt = \int_{0}^{3}\frac{1}{2}t^2 dt

    Why exactly is this the definite integral? Good question! 😄

    The definition of velocity is the rate of change of the position. Since we are trying to find the displacement, it makes sense that we are taking the integral of the velocity.

    3️⃣ Evaluate the integral!

    0312t2dt=16(3)316(0)3=276=92\int_{0}^{3}\frac{1}{2}t^2 dt=\frac{1}{6}(3)^3-\frac{1}{6}(0)^3=\frac{27}{6}=\frac{9}{2}

    We get that the final displacement is 92\frac{9}{2}!

    📝 2004 AP Calculus AB Form B Question 2c Walkthrough

    The following free-response question (FRQ) is from the 2004 AP Calculus AB examination from Form B administered by College Board. All credit to College Board.

    Untitled

    Image Courtesy of College Board

    For this problem, we are only working on Part C because that is the part that has to do with accumulation. ✨

    🪜Accumulation Function: Steps to Follow

    1️⃣ Identify the rate of change function.

    2️⃣ Set up the definite integral to find the net change.

    3️⃣ Evaluate the integral.

    4️⃣ Use any provided initial condition to complete the problem!

    🔎 Step 1: Identifying the rate of change function

    The function is given in the problem. Here it is below! Remember that the units for the rate of change is mosquitoes per day 🦟!

    R(t)=5tcos(t5)R(t) = 5\sqrt{t}\cos(\frac{t}{5})

    📕 Steps 2 & 3: Setting up and evaluating the definite integral

    In Part C, we’re trying to find the number of mosquitoes on the island at t=31t=31, which means we are trying to find the accumulation of the rate of change from t=0t=0 to t=31t=31!

    0315tcos(t5)dt35.665\int_{0}^{31}5\sqrt{t}\cos(\frac{t}{5})dt≈-35.665

    ✅ Step 4: Using the initial condition

    In the problem you are told that at t=0t=0, there are 10001000 mosquitoes on the island. Since we calculated the total change, we can add that to our initial condition to get the final answer!

    1000+031R(t)dt964.3351000+\int_{0}^{31}R(t)dt ≈ 964.335

    Since the final answer says to round to the nearest whole number, the final answer will be 964 mosquitoes! 🦟

    ⭐️ Closing

    Congrats on making it through the application part of the accumulation problems. With continuous practice, you’ll learn more and be able to ace the AP Calculus exam! You’ve got this! ☺️

    8.3 Using Accumulation Functions and Definite Integrals in Applied Contexts

    4 min readfebruary 15, 2024

    Attend a live cram event

    Review all units live with expert teachers & students

      Welcome to the third topic in Unit 8! In this key topic, we’ll be learning more about what an accumulation problem is and how to solve one. For a more in-depth review of how to take an integral, take a look at Unit 6!

      ⛰️ Accumulation Problems

      So before we learn how to solve an accumulation problem, we need to know what an accumulation problem is in the first place. The picture below is a visual representation of the graphical meaning of an integral. 📈 

      To calculate the integral of a function, you are essentially taking the area that is under the curve! More specifically in an accumulation problem, you are taking the integral of the rate of change function that you are given.

      Untitled

      Image Courtesy of Nagwa

      📝 Walkthrough of an Accumulation Problem

      This will be a very simple example to understand the concept of accumulation. You are given a velocity equation, which is v(t)=12t2v(t)=\frac{1}{2}t^2. How would you calculate the total displacement between t=0t=0 and t=3t=3?

      Here’s one way we can solve the problem, step by step.

      1️⃣ Identify the rate of change function.

      In this case, the rate of change function is velocity since we want to end up with time! ⏲️

      2️⃣ Set up the definite integral to evaluate.

      03v(t)dt=0312t2dt\int_{0}^{3}v(t)dt = \int_{0}^{3}\frac{1}{2}t^2 dt

      Why exactly is this the definite integral? Good question! 😄

      The definition of velocity is the rate of change of the position. Since we are trying to find the displacement, it makes sense that we are taking the integral of the velocity.

      3️⃣ Evaluate the integral!

      0312t2dt=16(3)316(0)3=276=92\int_{0}^{3}\frac{1}{2}t^2 dt=\frac{1}{6}(3)^3-\frac{1}{6}(0)^3=\frac{27}{6}=\frac{9}{2}

      We get that the final displacement is 92\frac{9}{2}!

      📝 2004 AP Calculus AB Form B Question 2c Walkthrough

      The following free-response question (FRQ) is from the 2004 AP Calculus AB examination from Form B administered by College Board. All credit to College Board.

      Untitled

      Image Courtesy of College Board

      For this problem, we are only working on Part C because that is the part that has to do with accumulation. ✨

      🪜Accumulation Function: Steps to Follow

      1️⃣ Identify the rate of change function.

      2️⃣ Set up the definite integral to find the net change.

      3️⃣ Evaluate the integral.

      4️⃣ Use any provided initial condition to complete the problem!

      🔎 Step 1: Identifying the rate of change function

      The function is given in the problem. Here it is below! Remember that the units for the rate of change is mosquitoes per day 🦟!

      R(t)=5tcos(t5)R(t) = 5\sqrt{t}\cos(\frac{t}{5})

      📕 Steps 2 & 3: Setting up and evaluating the definite integral

      In Part C, we’re trying to find the number of mosquitoes on the island at t=31t=31, which means we are trying to find the accumulation of the rate of change from t=0t=0 to t=31t=31!

      0315tcos(t5)dt35.665\int_{0}^{31}5\sqrt{t}\cos(\frac{t}{5})dt≈-35.665

      ✅ Step 4: Using the initial condition

      In the problem you are told that at t=0t=0, there are 10001000 mosquitoes on the island. Since we calculated the total change, we can add that to our initial condition to get the final answer!

      1000+031R(t)dt964.3351000+\int_{0}^{31}R(t)dt ≈ 964.335

      Since the final answer says to round to the nearest whole number, the final answer will be 964 mosquitoes! 🦟

      ⭐️ Closing

      Congrats on making it through the application part of the accumulation problems. With continuous practice, you’ll learn more and be able to ace the AP Calculus exam! You’ve got this! ☺️

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      About Us
      About FiveableBlogCareersCode of ConductTerms of UsePrivacy PolicyCCPA Privacy Policy
      Resources
      Cram ModeAP Score CalculatorsStudy GuidesPractice QuizzesGlossaryCram EventsMerch ShopCrisis Text LineHelp Center

      © 2024 Fiveable Inc. All rights reserved.

      AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.

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