APFIVE Recent Question Answers
Practice Test Results
Stats
| Accuracy | Question | Correct/Attempt | Last Answer |
|---|---|---|---|
| 0% | Domain Restrictions in Differential Equations AP Calculus BC / Unit 7: Differential Equations | 0/1 | April 21, 2026 13:35 |
| 0% | Logistic Model Carrying Capacity AP Calculus BC / Unit 7: Differential Equations | 0/1 | April 21, 2026 13:35 |
| 100% | General Solution of a Differential Equation AP Calculus BC / Unit 7: Differential Equations | 1/1 | April 21, 2026 13:35 |
| 100% | Logistic Growth at Carrying Capacity AP Calculus BC / Unit 7: Differential Equations | 1/1 | April 21, 2026 13:35 |
| 100% | All of the following statements are true regarding drawing solution curves on a slope field except: AP Calculus AB / Unit 7: Differential Equations | 1/1 | April 21, 2026 13:32 |
| 33% | Particular Solution to a Differential Equation AP Calculus AB / Unit 7: Differential Equations | 1/3 | April 21, 2026 13:32 |
| 100% | Antiderivative With an Initial Condition AP Calculus AB / Unit 7: Differential Equations | 1/1 | April 21, 2026 13:31 |
| 50% | Particular Solution as a Definite Integral AP Calculus AB / Unit 7: Differential Equations | 1/2 | April 21, 2026 13:30 |
| 50% | For the circle given by $$x^2+y^2=25$$ shown above, determine the slope of the tangent line at the point $$(3,4)$$. AP Calculus AB / Unit 7: Differential Equations | 1/2 | April 21, 2026 13:29 |
| 50% | Particular Solution to a Differential Equation AP Calculus AB / Unit 7: Differential Equations | 1/2 | April 21, 2026 13:28 |
| 100% | Solve the trigonometric equation: $$\sin(2*x) = \frac{\sqrt{2}}{2}$$ for $$0 \leq x < \pi$$. AP Calculus AB / Unit 7: Differential Equations | 1/1 | April 21, 2026 13:27 |
| 0% | Particular Solution to a Differential Equation AP Calculus BC / Unit 7: Differential Equations | 0/1 | April 20, 2026 12:34 |
| 100% | General Solution Characteristics AP Calculus BC / Unit 7: Differential Equations | 1/1 | April 20, 2026 12:34 |
| 0% | Euler's Method Approximation Error AP Calculus BC / Unit 7: Differential Equations | 0/1 | April 20, 2026 12:34 |
| 100% | Define the function $$F(x)=\int_{0}^{x}\cos(t)\,dt$$. Evaluate $$F\left(\frac{\pi}{2}\right)$$. AP Calculus BC / Unit 7: Differential Equations | 1/1 | April 20, 2026 12:34 |
| 0% | Definition of a Differential Equation AP Calculus BC / Unit 7: Differential Equations | 0/1 | April 20, 2026 12:34 |
| 100% | Second Derivative Test Inconclusive Case AP Calculus BC / Unit 5: Analytical Applications of Differentiation | 1/1 | April 20, 2026 12:13 |
| 0% | Absolute Maximum of a Trigonometric Function AP Calculus BC / Unit 5: Analytical Applications of Differentiation | 0/1 | April 20, 2026 12:13 |
| 100% | Inflection Point Of A Polynomial Function AP Calculus BC / Unit 5: Analytical Applications of Differentiation | 1/1 | April 20, 2026 12:13 |
| 0% | Derivative of an Inverse Function AP Calculus BC / Unit 5: Analytical Applications of Differentiation | 0/1 | April 20, 2026 12:13 |
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