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0.138 g: Standing on Ganymede at average surface level 0.146 g: Standing on the Moon at surface level 0.1657 g: 2000 Toyota Sienna from 0 to 100 km/h in 9.2 s [26] 0.3075–0.314 g: Standing on Mercury: 0.377 g: Standing on Mars at its equator at mean ground level 0.378 g: Standing on Venus at average ground level 0.905 g
The time it takes a vehicle to accelerate from 0 to 60 miles per hour (97 km/h or 27 m/s), often said as just "zero to sixty" or "nought to sixty", is a commonly used performance measure for automotive acceleration in the United States and the United Kingdom. In the rest of the world, 0 to 100 km/h (0 to 62.1 mph) is used.
0.25 m/s 2: 0.026 g: Train acceleration for SJ X2 [citation needed] 10 0: 1 m/s 2: inertial 1.62 m/s 2: 0.1654 g: Standing on the Moon at its equator [citation needed] lab 4.3 m/s 2: 0.44 g: Car acceleration 0–100 km/h in 6.4 s with a Saab 9-5 Hirsch [citation needed] inertial 9.80665 m/s 2: 1 g: Standard gravity, the gravity acceleration on ...
The downward force of gravity (F g) equals the restraining force of drag (F d) plus the buoyancy. The net force on the object is zero, and the result is that the velocity of the object remains constant. Terminal velocity is the maximum speed attainable by an object as it falls through a fluid (air is the most common example).
All bodies accelerate in vacuum at the same rate, regardless of the masses or compositions of the bodies; [1] the measurement and analysis of these rates is known as gravimetry. At a fixed point on the surface, the magnitude of Earth's gravity results from combined effect of gravitation and the centrifugal force from Earth's rotation .
The pulse-and-glide strategy is proven to be an efficient control design in both car-following [26] and free-driving scenarios, [28] with up to 20% fuel saving. In the PnG strategy, the control of the engine and the transmission determines the fuel-saving performance, and it is obtained by solving an optimal control problem (OCP).
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By 0–60 mph (97 km/h) (less than 3.0 s) [ edit ] Many elements change how fast the car can accelerate to 60 mph. [ ii ] [ iii ] Tires, elevation above sea level, weight of the driver, testing equipment, weather conditions and surface of testing track all influence these times. [ 3 ]