You need dome type of Formula to calculate this. The formula must relate drag and surface area. Assuming the surface area is at the face of the car, or not.
Yes.
put it in the fridge
Surface area is ONE thing that can affect how fast an object falls. Two forces determine how fast an object falls - the force of gravity and the opposing drag on the object from the medium it is falling through. In the case of an object falling in a vacuum, there is no drag so the object falls strictly according to the law of gravity. If an object is dropped through a fluid such as air or water, it can reach a terminal velocity where the force of gravity is exactly counterbalanced by the opposing drag on the object. In this case acceleration ceases - although motion does not. In other words, the object continues to fall, but it doesn't speed up. Drag force is a function of object velocity, viscosity of the fluid it is falling through, the surface area of the falling object, the surface roughness of the falling object, and the geometry of the falling object (spheres usually have less drag than cubes for example).
It increases it.
Aerodynamic drag, depends on size, surface texture and shape. The force behind it = mass * acceleration due to gravity
Drag. This is the force which acts against a runner and is the resultant force of the runner pushing against the particles in the air. Drag is affected by the mass and surface area of the runner. Friction is another force which can affect running.
The three forces that affect speed are thrust (what propels the object forward), surface area (the smoothness and amount of area that comes in contact with the air, which can also be called friction), and drag.
yes... the shape of a toy car affect wind resistance
You need dome type of Formula to calculate this. The formula must relate drag and surface area. Assuming the surface area is at the face of the car, or not.
Drag coefficient can be defined as the ratio of the drag on a body moving through air to the prioduct of the velocity and the surface area of the body.
The surface of an object affects the aerodynamic drag: a force which acts against the direction of motion.
Drag coefficient can be defined as the ratio of the drag on a body moving through air to the prioduct of the velocity and the surface area of the body.
The surface of an object affects the aerodynamic drag: a force which acts against the direction of motion.
The larger the surface area, the larger the damping of an oscillation
A great surface area is a factor which favors weathering.
it doesnt