The faster the car goes the thicker the eir gets, to cut/drive throught this thick air the car needs good aerodynamics. Ao aerodynamics are very important.
It decreases the mpg by lowering the wind resistance pushing against the car.
To improve aerodynamics and allow the car to cut through the air.
A rear spoiler on a car is designed to improve aerodynamics by reducing drag and increasing downforce, which helps improve stability and traction at higher speeds.
When creating a wood car design, factors to consider include the type of wood used, the car's weight distribution, aerodynamics, structural integrity, and overall design aesthetics. These factors can impact the car's performance, durability, and appearance.
The biggest part is aerodynamics, in my non-engineering experience. The better the aerodynamics, the better the fuel efficiency. There are more factors to this like weight, gearing, etc.
To improve your soap box car design for better performance and speed, consider reducing weight by using lightweight materials, optimizing aerodynamics by streamlining the shape, ensuring proper wheel alignment for minimal friction, and using high-quality wheels and axles for smooth rolling. Additionally, fine-tune the balance and weight distribution of the car for improved stability and control during races.
you're an idiot no you are not an idiot the study of aerodynamics is to improve the ability of a vehicule to move thru the air with the least resistance possible therefore making it more efficient
The key features and improvements of the new Formula 1 car design for the upcoming season include enhanced aerodynamics for better downforce and grip, a simplified front wing design to reduce turbulence, and a more powerful hybrid engine for increased performance. These changes aim to improve racing competitiveness and safety on the track.
aerodynamics. a car can save A LOT on gas if it has good aerodynamics.
Aerodynamics is the science of aircraft design.
Physicists are hired by car companies to bring expertise in areas such as aerodynamics, materials science, and energy efficiency to improve the design and performance of vehicles. Their knowledge can help optimize the engineering processes, enhance safety features, and develop innovative technologies for the automotive industry.