The SSC Ultimate Aero has taken many speed tests, and the highest result was 256.18 mph. It has a 6.35L V8 engine to achieve such a high speed. Although the SSC is this fast, it does not acquire electronic aids such as ABS Brakes or Traction Control.
The unit weight of a 8mm thick stainless steel plate (SS 409) is approximately 64.8 kg/m^2. This value may vary slightly based on the specific composition of the stainless steel material used in the plate.
The SS Tipton, the fictional cruise ship from the TV show "The Suite Life on Deck," does not have an established weight as it is a fictional creation. The weight of a real cruise ship can vary significantly depending on its size, design, and materials used in construction.
No. It decreases with altitude. The acceleration due to gravity is inversly proportional to the square of the distance from the center of the earth. The radius of the Earth is about 6 million meters so you would have to go 100000 m (about 60 miles) up before you saw much of a difference. I think that would give you about 10% decrease. So instead of 9.8 m/ss it would be more like 9 m/ss. That's an estimate. I think I overestimated the decrease in acceleration due to gravity at 100Km up. It looks like its more like 9.5 m/ss rather than 9 m/ss. Since g is proportional to inverse distance from center of earth, squared you can use ratio & proportion as; g/R^2 = g0/R0^2 g = g0 x (R0/R)^2 Where g0 is acceleration at R0 (9.8 at earth's radius 6.37 Million M) and g is acceleration at larger distance R = 6.47 Million M (adding .1 Million M to Earth's radius. g = 9.8 x (6.37/6.47)^2 = 9.8 x .97 = 9.5 m/ss
The 1970 chevelle ss with the 454 weighed 3,800 pounds.
80 meters A2 The equation that will give you the answer comes from either "conservation of mechanical energy" or from the study of kinematics. If you neglect air resistance the equation is; V = SquareRoot( 2gh) where h = 80 m (given) and g = 9.8 m/ss (acceleration due to gravity). V = SquareRoot( 2 x 9.8 x 80 ) = squareRoot( 1568) = 39.6 m/s Because of air resistance the speed will be a bit slower then 39.6 m/s but there is not enough information given to calculate this.
SSC Ultimate Aero if there's no Bugatti Veyron SS in the US yet
SSC Ultimate Aero TT: 257mph Since beaten by the Bugatti Veyron SS: 268mph
The official records put the Veyron SS at 268 mph versus the Ultimate Aero's 257. However, wind tunnel testing suggests that the latter can reach 273 mph under the right conditions.
In the US: SSC Ultimate Aero TT at 257mph, unless there's a 268mph Bugatti Veyron SS in the US already. That's the answer for PRODUCTION cars.
The normal Bugatti Veyron 1. Bugatti Veyron SS - 267mph 2. SSC Ultimate Aero TT - 256mph 3. Bugatti Veyron - 253mph
The second fastest car in the world is the Bugatti Veyron, at 253 miles per hour, it falls second losing to the SSC Ultimate aero topping out at 255 miles per hour. in 2010 bugatti realsed the bugatti veyron ss (super sport) which can go to 264 I think.
all depended on how it was geared in the rearend.
It was the Bugatti Veryon 1.6 but now its the SSC Ultimate Aero. it beat the Veryon by 7mph.
6,052
About 150 mPh depending if its ss or z28
all depended on how it was geared in the rearend.
The top speed is 268mph.