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Practice Test Results
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| Accuracy | Question | Correct/Attempt | Last Answer |
|---|---|---|---|
| 100% | Based on the graph of the piecewise function f(x) given above, determine whether f(x) is continuous at $$x=2$$. AP Calculus AB / Unit 1: Limits and Continuity | 1/1 | April 22, 2026 23:19 |
| 100% | Implicit Differentiation AP Calculus AB / Unit 3: Differentiation: Composite, Implicit, and Inverse Functions | 1/1 | April 22, 2026 23:19 |
| 100% | Implicit Differentiation at a Point AP Calculus AB / Unit 5: Analytical Applications of Differentiation | 1/1 | April 22, 2026 23:19 |
| 0% | Related Rates of a Regular Hexagon AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 0/1 | April 22, 2026 23:19 |
| 100% | Average Value of a Function AP Calculus AB / Unit 8: Applications of Integration | 1/1 | April 22, 2026 23:19 |
| 100% | Refer to the graph of $$f(x)=\frac{e^{3*x}-1}{x}$$ above. Calculate $$\lim_{x \to 0} \frac{e^{3*x}-1}{x}$$. AP Calculus AB / Unit 1: Limits and Continuity | 1/1 | April 22, 2026 23:19 |
| 100% | Finding a Critical Point of a Function AP Calculus AB / Unit 2: Differentiation: Definition and Fundamental Properties | 1/1 | April 22, 2026 23:19 |
| 100% | Volume with Circular Cross Sections AP Calculus AB / Unit 8: Applications of Integration | 1/1 | April 22, 2026 23:19 |
| 0% | Evaluating a Limit by Factoring AP Calculus AB / Unit 5: Analytical Applications of Differentiation | 0/1 | April 22, 2026 23:19 |
| 0% | Power Rule for Differentiation AP Calculus AB / Unit 2: Differentiation: Definition and Fundamental Properties | 0/1 | April 22, 2026 23:19 |
| 100% | Right Riemann Sum with an Initial Value AP Calculus AB / Unit 6: Integration and Accumulation of Change | 1/1 | April 22, 2026 23:19 |
| 100% | Implicit Differentiation at a Point AP Calculus AB / Unit 3: Differentiation: Composite, Implicit, and Inverse Functions | 1/1 | April 22, 2026 23:19 |
| 0% | Definite Integral of an Odd Function AP Calculus AB / Unit 6: Integration and Accumulation of Change | 0/1 | April 22, 2026 23:19 |
| 0% | Consider the logistic differential equation $$\frac{dy}{dt} = y*(1-y)$$. Based on the behavior depicted in the graph above, which equilibrium solution is stable? AP Calculus AB / Unit 7: Differential Equations | 0/1 | April 22, 2026 23:19 |
| 100% | Total Amount from a Rate Function AP Calculus AB / Unit 6: Integration and Accumulation of Change | 1/1 | April 22, 2026 23:19 |
| 100% | Position From Velocity With Initial Condition AP Calculus AB / Unit 8: Applications of Integration | 1/1 | April 22, 2026 23:19 |
| 100% | Particle Acceleration from Velocity AP Calculus AB / Unit 4: Contextual Applications of Differentiation | 1/1 | April 22, 2026 23:19 |
| 100% | Limit at Infinity of a Ratio of Functions AP Calculus AB / Unit 1: Limits and Continuity | 1/1 | April 22, 2026 23:19 |
| 100% | Solving a Separable Differential Equation AP Calculus AB / Unit 7: Differential Equations | 1/1 | April 22, 2026 23:19 |
| 100% | Classification of Function Continuity AP Calculus AB / Unit 1: Limits and Continuity | 1/1 | April 22, 2026 23:19 |
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