APFIVE Recent Question Answers
Practice Test Results
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| Accuracy | Question | Correct/Attempt | Last Answer |
|---|---|---|---|
| 0% | Applying Integration by Parts AP Calculus AB / Unit 5: Analytical Applications of Differentiation | 0/1 | May 1, 2026 19:24 |
| 100% | Implicit Differentiation With Sine AP Calculus AB / Unit 3: Differentiation: Composite, Implicit, and Inverse Functions | 1/1 | May 1, 2026 19:20 |
| 100% | Chain Rule with a Composite Function AP Calculus AB / Unit 3: Differentiation: Composite, Implicit, and Inverse Functions | 1/1 | May 1, 2026 19:20 |
| 50% | Chain Rule with an Exponential Function AP Calculus AB / Unit 3: Differentiation: Composite, Implicit, and Inverse Functions | 1/2 | May 1, 2026 19:20 |
| 0% | Tangent Line with Implicit Differentiation AP Calculus AB / Unit 3: Differentiation: Composite, Implicit, and Inverse Functions | 0/1 | May 1, 2026 19:20 |
| 50% | Differentiate $$y=e^{\sqrt{4*x+1}}$$ with respect to x. AP Calculus AB / Unit 3: Differentiation: Composite, Implicit, and Inverse Functions | 1/2 | May 1, 2026 19:20 |
| 100% | Mean Value Theorem Application AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | May 1, 2026 13:35 |
| 100% | Using the graph of $$f(x)=2*x+1$$ shown above, which of the following expressions correctly represents the left Riemann sum approximation with 5 equal subintervals over the interval [0,5]? AP Calculus AB / Unit 6: Integration and Accumulation of Change | 1/1 | May 1, 2026 13:31 |
| 100% | Left Riemann Sum from a Table AP Calculus AB / Unit 6: Integration and Accumulation of Change | 1/1 | May 1, 2026 13:29 |
| 100% | Definition of a Riemann Sum AP Calculus AB / Unit 6: Integration and Accumulation of Change | 1/1 | May 1, 2026 13:26 |
| 100% | Riemann Sum Approximation Difficulty AP Calculus AB / Unit 6: Integration and Accumulation of Change | 1/1 | May 1, 2026 13:25 |
| 100% | Properties of L'Hopital's Rule AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | April 30, 2026 13:00 |
| 100% | Related Rates Shadow Problem AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | April 30, 2026 12:58 |
| 100% | Finding a Critical Number AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | April 30, 2026 12:53 |
| 100% | Spherical Balloon Related Rates AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | April 30, 2026 12:51 |
| 100% | Properties of the Chain Rule AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | April 30, 2026 12:47 |
| 100% | Balloon Volume Rate of Change AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | April 30, 2026 12:46 |
| 100% | Solving a Radical Equation AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | April 30, 2026 12:42 |
| 67% | Tangent Line to an Integral Function AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 2/3 | April 29, 2026 13:46 |
| 100% | I. Differentiating the numerator $$e^{2*x}-1$$ yields $$2*e^{2*x}$$.
II. Differentiating the denominator $$\sin(3*x)$$ yields $$3*\cos(3*x)$$.
III. Applying L'Hôpital's Rule and evaluating the result at $$x=0$$ gives the limit as $$\frac{2}{3}$$.
Which of the above statements are true regarding the evaluation of the limit? AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | April 29, 2026 13:38 |
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