AP Physics C: Mechanics FRQ Guide 2026 — Free Response Tips & Scoring
The AP Physics C: Mechanics free response section is worth 50% of your total score — 45 raw points across 3 questions in 45 minutes. Unlike AP Physics 1, these questions require calculus: expect to integrate, differentiate, and set up differential equations.
AP Physics C: Mechanics FRQ Format
| Question | Points | Time | Typical Topic |
|---|---|---|---|
| FRQ 1 | 15 pts | ~15 min | Mechanics — often kinematics, Newton's laws, or energy with calculus |
| FRQ 2 | 15 pts | ~15 min | Rotation — torque, angular momentum, rolling, moment of inertia |
| FRQ 3 | 15 pts | ~15 min | Oscillations, gravitation, or a multi-concept problem |
| Total | 45 pts | 45 min | Scales to 50% of AP composite score |
The 3 FRQ Types in Mechanics
Type 1: Calculus-Based Kinematics / Dynamics
These problems give you a position, velocity, or force as a function of time and ask you to derive other quantities. The pattern:
- Given x(t) or v(t) → differentiate to find v or a
- Given a(t) or F(t) → integrate to find v(t) or x(t)
- Use separation of variables for differential equations (common in drag-force problems)
- Work = ∫F dx for variable forces
Type 2: Rotation Problems
Almost always include: calculating moment of inertia (possibly with parallel axis theorem), finding torque, applying Στ = Iα, and dealing with rolling without slipping (v = Rω).
- Set up: draw diagram, identify rotation axis, list forces with moment arms
- Angular impulse-momentum: ΔL = ∫τ dt or conservation of L when τ_net = 0
- Rolling without slipping: ALWAYS check if problem specifies this; if so, v_cm = Rω
- Total kinetic energy of rolling object: K = ½mv² + ½Iω²
Type 3: Oscillations and Gravitation
SHM problems usually require deriving the equation of motion (show that a = -ω²x), identifying ω, T, and amplitude. Gravitation problems often test Kepler's third law, orbital mechanics, and escape velocity using energy conservation.
How AP Physics C: Mechanics FRQs Are Scored
| Score Element | Points Typically Available |
|---|---|
| Correct setup / relevant equation stated | 1–2 pts |
| Correct algebraic manipulation / integration | 1–2 pts |
| Correct final answer with correct units | 1 pt |
| Correct diagram (free body, energy diagram) | 1 pt |
| Explanation of physical reasoning | 1–2 pts |
Writing Calculus-Based Derivations
This is what separates Physics C from Physics 1. Here's the standard method for earning full derivation credit:
Integration Template
- State your starting equation: Write F = ma or the relevant principle
- Set up the integral explicitly: ∫ dv = ∫ (F/m) dt (show the integral sign and limits or variables)
- Evaluate with limits: Leave in terms of the given variables; plug in only what the problem asks
- Write units with the final answer
Differential Equation Setup
For drag-force problems (F = -bv type):
- Write Newton's second law: m(dv/dt) = mg - bv
- Separate variables: m dv/(mg - bv) = dt
- Integrate both sides with limits
- Solve for v(t)
Graders award points at each of these steps — even if the final answer is wrong, partial credit is available.
Rotation & Oscillation FRQ Strategy
Rotation Checklist
- Draw the system and label all forces and their positions relative to rotation axis
- Calculate I — if needed, use I = I_cm + md² (parallel axis theorem; provided on formula sheet)
- Write Στ = Iα; also write ΣF = ma for the translational component separately
- For rolling: combine v = Rω with Newton's equations; angular momentum about contact point may simplify
- Check: is angular momentum conserved? If Στ_ext = 0, use ΔL = 0
SHM Derivation Template
To prove a system undergoes SHM, you must show that the restoring force is proportional to displacement (F = -kx form):
- Identify the equilibrium position
- Displace by small amount x; write Newton's second law
- Show the result is: d²x/dt² = -(k/m)x or equivalent
- Identify ω² = k/m → T = 2π/ω = 2π√(m/k)
Most Common Mistakes on Physics C: Mechanics FRQs
- Forgetting to integrate: Using kinematic equations (v = v₀ + at) when force is NOT constant — always check if you need calculus
- Sign errors in derivatives: dU/dx gives force magnitude; F = -dU/dx includes the minus sign. Missing the negative = wrong direction
- Rolling vs. sliding: Not using v = Rω when rolling without slipping; or using it when the problem doesn't specify rolling
- Parallel axis theorem: Forgetting the +md² term when the rotation axis doesn't pass through the center of mass
- Angular momentum vs. linear: Confusing L = Iω (rotation about fixed axis) with L = mvr (point particle)
- Missing units: Physics C graders require units on final numerical answers — missing them costs points
- Not defining variables: If you introduce a variable not in the problem, define it. Graders can't award credit for undefined symbols
Practice the concepts on a timed 30-question test before tackling FRQs
AP Physics C: Mechanics Practice Test →Related Resources
- AP Physics C: Mechanics Score Calculator
- AP Physics C: Mechanics Practice Test — 30 Questions
- AP Physics C: Mechanics Formula Sheet
- AP Physics C: E&M FRQ Guide
- AP Physics 1 FRQ Guide