- Junior Division Coding - Contest Years 2010-2011 through 2024-2025 (15 Years)
- Junior Division Theory & Coding- Contest Years 2020-2021 through 2024-2025 (5 Years)
- Junior Division Theory - Contest Years 2010-2011 through 2024-2025 (15 Years)
- Junior Division Theory and Coding - Contest Year 2024–2025 (1 Year)
- Junior Division Theory & Coding- Contest Years 2010-2011 through 2024-2025 (15 Years)
- Intermediate Division Theory and Coding - Contest Year 2024-2025 (1 Year)
- Intermediate Division Theory - Contest Years 2010-2011 through 2024-2025 (15 Years)
- Intermediate Division Theory & Coding - Contest Years 2010-2011 through 2024-2025 (15 Years)
- Intermediate Division Theory & Coding - Contest Years 2020-2021 through 2024-2025 (5 Years)
- Intermediate Division Coding - Contest Years 2010-2011 through 2024-2025 (15 Years)
- Senior Division Theory and Coding - Contest Year 2022-2023 (1 Year)
- Senior Division Theory - Contest Years 2011-2012 through 2023-2024 (13 Years)
- Senior Division Theory & Coding - Contest Years 2011-2012 through 2023-2024 (13 Years)
- Senior Division Coding - Contest Years 2011-2012 through 2023-2024 (13 Years)
- Senior Division Theory and Coding - Contest Year 2020-2024 (4 Years)
1. Kinematics
A. Scalars and Vectors in One Dimension
B. Displacement, Velocity, and Acceleration
C. Representing Motion
D. Reference Frames and Relative Motion
E. Vectors and Motion in Two Dimensions
2. Force and Translational Dynamics
A. Systems and Center of Mass
B. Forces and Free-Body Diagrams
C. Newton's Third Law
D. Newton's First Law
E. Newton's Second Law
F. Gravitational Force
G. Kinetic and Static Friction
H. Spring Forces
I. Circular Motion
3. Work, Energy, and Power
A. Translational Kinetic Energy
B. Work
C. Potential Energy
D. Conservation of Energy
4. Linear Momentum
A. Linear Momentum
B. Change in Momentum and Impulse
C. Conservation of Linear Momentum
D. Elastic and Inelastic Collisions
5. Torque and Rotational Dynamics
A. Rotational Kinematics
B. Connecting Linear and Rotational Motion
C. Torque
D. Rotational Inertia
E. Rotational Equilibrium and Newton's First Law in Rotational Form
F. Newton's Second Law in Rotational Form
6. Energy and Momentum of Rotating Systems
A. Rotational Kinetic Energy
B. Torque and Work
C. Angular Momentum and Angular Impulse
D. Conservation of Angular Momentum
E. Motion of Orbiting Satellites
7. Oscillations
A. Defining Simple Harmonic Motion (SHM)
B. Frequency and Period of SHM
C. Representing and Analyzing SHM
8. Fluids
A. Internal Structure and Density
B. Fluids and Newton's Laws
C. Fluids and Conservation Laws
9. Thermodynamics Functions
A. Thermodynamic Systems
B. Pressure, Thermal Equilibrium, and the Ideal Gas Law
C. Thermodynamics and Forces
D. Heat and Energy Transfer
E. Thermodynamics and Collisions
10. Electric Force, Field, and Potential
A. Electric Systems and Charge
B. Charge Distribution - Friction, Conduction, and Induction
C. Electric Permittivity
11. Electric Circuits
A. Definition and Conservation of Electric Charge
B. Resistivity and Resistance
C. Resistance and Capacitance
D. Kirchhoff’s Loop Rule
E. Kirchhoff’s Junction Rule and the Conservation of Electric Charge
12. Magnetism and Electromagnetism
A. Magnetic Systems
B. Magnetic Permeability and Magnetic Dipole Moment
C. Vector and Scalar Fields