Wings generate lift primarily through air pressure differences. Because of the curved shape of an airfoil, air travels faster over the top surface than underneath it. According to the principle, faster-moving air results in lower air pressure. The higher pressure beneath the wing pushes the wing (and the plane) upward.

• Energy Transfer: This is simply moving energy from one object or place to another.
• Energy Transformation: This happens when energy actively changes from one type into another.

• Solids: Particles are tightly packed and have a fixed shape and volume.
• Liquids: Particles are close but can move around, they have a fixed volume but take the shape of their container.
• Gases: Particles are far apart and move freely, they have no fixed shape or volume.

Downforce uses the principles of dynamics. As a car moves forward, air flows over and under it. Wings and aerodynamics act like inverted airplane wings, instead of creating lift, they use this airflow to push the car into the pavement.

Newton's Second Law: Because a heavy box has more mass, it has more inertia. To give it the same acceleration as a lighter box, you must apply a significantly larger force.

• Drag: The friction of air rubbing against the outside of the plane. It increases as the aircraft flies faster.
• Induced Drag: An unavoidable product of generating lift. It happens at the wingtips where high-pressure air under the wing leaks upward to the low-pressure air on top, creating swirling energy. It increases at slower speeds with a high angle of attack.

• Conduction: Transfers through direct physical contact.
• Convection: Transfers through the movement of liquids or gases.
• Radiation: Transfers through electromagnetic waves.

A phase change occurs when matter transitions from one state to another, usually when thermal energy is added or removed. Changes include melting (solid to liquid), freezing (liquid to solid), evaporation (liquid to gas), and condensation (gas to liquid).

No, the actual mass of the car remains completely unchanged. However, the aerodynamics makes the car feel much heavier at the tires.

Newton's Third Law: When you push the wall, you are putting force on it. In response, the wall pushes back on you with an equal and opposite force. Because the wall is attached to the ground, it pushes back with enough force to perfectly balance your push, resulting in no movement at all.

Flaps are hinged panels on the trailing edges of the wings. When a pilot extends them, they increase the surface area of the wing. This allows the aircraft to generate significantly more lift and drag at slower speeds, letting the plane descend at a steeper angle without gaining dangerous airspeed.

When you flip the light switch, electrical energy travels down the wire to the bulb. The bulb then transforms that electrical energy into two new forms, light energy which is useful and thermal energy/heat, which is a non-useful transfer of energy, as it just warms up the room.

Mass measures the exact amount of matter in an object (usually measured in grams or kilograms). Weight, however, measures the gravitational force acting on that mass.

Downforce does not increase at a rate, it increases with the vehicle's speed. If a race car doubles its speed, the downforce produced doubles. Moreover, this means a car generates very little downforce at low speeds.

It stays the same, balanced forces mean no force. An object that is sitting still will stay still, and an object already moving will keep moving at a constant speed.