You record the various speed on the same distance and sum it.
Then divide that sum with how many times you record it.
Like for x meters :
1. a m/s
2. b m/s
3. c m/s
.
.
n. y m/s
The average would be : (a+b+c +...y)/n
Drag cars have small front tires to reduce friction and resistance, allowing the car to accelerate faster and maintain stability at high speeds.
Parachutes: Aerodynamic drag slows down the descent of a parachute, allowing for a controlled and safe landing. Air brakes on vehicles: Aerodynamic drag helps slow down vehicles by increasing resistance, improving braking efficiency. Spoilers on cars: Aerodynamic drag generated by spoilers helps improve the handling and stability of vehicles at high speeds.
Cars get better gas mileage on the highway because they can maintain a more consistent speed, which reduces the amount of fuel needed to overcome frequent acceleration and deceleration. Additionally, aerodynamic drag is lower at higher speeds, further improving fuel efficiency.
Cars are streamlined to reduce air resistance, also known as drag, which allows them to move through the air more efficiently. This design helps to improve fuel efficiency and overall performance of the vehicle. Additionally, a streamlined shape can contribute to better stability at high speeds.
Wind speed can affect cars by creating aerodynamic forces such as drag and lift. Higher wind speeds can increase resistance on the vehicle, leading to reduced fuel efficiency and potentially affecting handling. Strong gusts of wind can also make driving more challenging, especially for taller or lighter vehicles.
Drag cars have small front tires to reduce friction and resistance, allowing the car to accelerate faster and maintain stability at high speeds.
2
no
When an object travels through an atmosphere, it encounters resistance from that atmosphere which is known as drag. objects such as bullets, aircraft and cars are shaped so that they produce less drag as they travel at higher speeds than if they were square or blunt objects. The width of a car does affect the drag it produces, but not nearly as much as the shapes of its leading and trailing edges.
Parachutes: Aerodynamic drag slows down the descent of a parachute, allowing for a controlled and safe landing. Air brakes on vehicles: Aerodynamic drag helps slow down vehicles by increasing resistance, improving braking efficiency. Spoilers on cars: Aerodynamic drag generated by spoilers helps improve the handling and stability of vehicles at high speeds.
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If that wing is turned upside down, it increases drag instead of lift. Race cars use this increased downward force to give them more traction at higher speeds.
Formula 1 cars have high drag coefficients because they are open wheel, and they have large air dams and spoilers to create downforce.
Drag cars are quite powerful because of both the engines used to run them -- which are built for power and unnecessary in a standard vehicle -- and the fuel used to run them. Most drag cars race on a combination of fuels known as "racing alcohol" rather than standard gasoline. In addition, the design and tire placement of the cars help keep the cars powerful.
Cars get better gas mileage on the highway because they can maintain a more consistent speed, which reduces the amount of fuel needed to overcome frequent acceleration and deceleration. Additionally, aerodynamic drag is lower at higher speeds, further improving fuel efficiency.
drag boats have seen speeds of 250 mph +