AP Biology FRQ Strategy Guide

1. Overview of the FRQ Section

• Structure:

  • 2 Long FRQs (8–10 points each): Focus on integrating biological concepts with experimental data and reasoning.

  • 4 Short FRQs (4 points each): Require concise answers to specific questions.

• Scoring:

  • Partial credit is awarded; attempt every part.

  • Points are based on addressing key biological principles and demonstrating reasoning.

2. Preparing for FRQs

• Practice Regularly: Familiarize yourself with the question types by using past exam questions.

• Understand Key Biological Themes:

  • Biological systems are interrelated (e.g., genetics affecting evolution).

  • Processes are dynamic and depend on environmental or experimental changes.

3. Understanding FRQ Command Terms

FRQs often include key task words that direct your response. Learn to respond to these effectively:

• Identify: Provide a brief, specific answer (e.g., "Identify the organelle responsible for photosynthesis – chloroplast").

• Describe: Provide key details, avoiding extraneous information.

  • Example: Describe the process of osmosis—“Osmosis is the diffusion of water from high to low concentration across a semi-permeable membrane until equilibrium is reached.”

• Explain: Address the "how" or "why" of a process, linking evidence to outcomes.

  • Example: Explain how changes in temperature affect enzyme activity—“As temperature increases, enzyme activity rises due to greater kinetic energy until denaturation occurs, altering the enzyme's active site.”

• Predict: Anticipate an outcome based on provided conditions.

  • Example: Predict the effect of a mutation in a gene coding for hemoglobin—“The mutation may alter the protein's shape, reducing oxygen-carrying capacity.”

• Calculate: Show all work, including equations and units.

  • Example: Calculate population growth using r = 0.1—“dN/dt = rN (0.1 × 100 = 10).”

• Justify: Support your claim with reasoning or data.

  • Example: Justify why increasing substrate concentration increases reaction rate—“More substrate molecules increase collision frequency with enzymes.”

4. Breaking Down Long FRQs

• Example Question Type: Experimental Design and Analysis

  • Part A: Describe the biological concept behind the experiment (e.g., the role of enzymes in catalysis).

  • Part B: Identify variables:

    • Independent Variable: The factor you manipulate (e.g., pH).

    • Dependent Variable: The outcome measured (e.g., reaction rate).

    • Control Variables: Factors held constant (e.g., temperature).

  • Part C: Predict results and justify reasoning with data trends or principles.

Graphing in Long FRQs

1. Label both axes (include units).

2. Use a title describing the data.

3. Plot points clearly and use a key for multiple data sets.

4. Describe trends in the graph, such as a plateau or peak.

5. Strategies for Short FRQs

• Be Concise: Write 1–3 complete sentences.

• Directly Answer the Question: Use scientific terminology.

• Show Evidence: Include a specific example when relevant.

• Examples:

  • Question: Explain the role of ATP in cellular processes.

    • Answer: “ATP stores energy in its phosphate bonds, releasing it during hydrolysis to power cellular work like muscle contraction.”

6. Commonly Asked Topics

Cellular Processes

• Photosynthesis: Describe how light energy is converted into chemical energy.

  • Example: “Chlorophyll absorbs light, exciting electrons in the photosystems. The electron transport chain produces ATP and NADPH for the Calvin cycle.”

• Cellular Respiration: Explain the role of glycolysis, Krebs cycle, and oxidative phosphorylation.

  • Example: “Glycolysis breaks down glucose into pyruvate in the cytoplasm, yielding 2 ATP. Pyruvate enters the mitochondria, where the Krebs cycle and electron transport chain generate ATP.”

Molecular Biology

• Transcription and Translation:

  • Transcription occurs in the nucleus, where DNA is copied into mRNA.

  • Translation occurs in the cytoplasm, where ribosomes synthesize proteins from mRNA.

Ecology

• Population Dynamics: Analyze logistic vs. exponential growth.

  • Example: “Exponential growth occurs without limiting factors; logistic growth slows as populations approach carrying capacity.”

Genetics

• Mendelian Inheritance: Predict phenotypic ratios using Punnett squares.

  • Example: “Crossing heterozygous parents for a single gene results in a 3:1 dominant-to-recessive ratio.”

7. Addressing Data Analysis Questions

• Look for Trends:

  • Does the graph increase, decrease, or plateau?

  • Are there anomalies or irregularities?

• Example:

  • Data Table: Effect of pH on enzyme activity.

    • Interpretation: “Optimal activity occurs at pH 7, with activity decreasing outside this range due to enzyme denaturation.”

8. Advanced Tips

• Use Diagrams: Supplement written responses with clear, labeled drawings.

• Scientific Reasoning: Provide reasoning even if the question doesn’t explicitly ask for it.

• Stay Organized: Write responses in the order of the question parts.

9. Time Management

• Long FRQs:

  • Spend ~20 minutes per question.

  • Prioritize clear, complete answers over lengthy explanations.

• Short FRQs:

  • Spend ~10 minutes each; stay concise.

  • Write responses in bullet points for clarity if appropriate.

10. Practice Makes Perfect

• Practice FRQs from College Board archives.

• Review scoring rubrics to understand expectations.

• Write under timed conditions to simulate the exam environment.

By mastering these strategies and understanding the content, you’ll be well-prepared to tackle AP Biology FRQs confidently.