G B Car Make and Model Model S P100D Model S P90D Model S P85D 1 X² Horsepower (hp) 602 762 691 X₂ Aa Force Exerted (N) 9001.7 10509.0 At 9763.8 A 12.2 11.1 # Time to Travel 400 m (s) 11.5 Ω ½ Tesla Speed (kmph) at 400 m Distance 179.6 194.7 190.1 Final Velocity (m/s) Acceleration (m/s²) Mass of the Car (kg)

Hello, Here are the 3 sub parts to the data table below. Thank you in advance

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G → B Car Make and Model Model S P100D Model S P90D Model S P85D 1 Horsepower (hp) 602 762 x² 691 X₂ Aa Force Exerted (N) 9001.7 10509.0 A‡ 9763.8 A 12.2 Time to Travel 400 m (s) 11.1 Ω 11.5 14 Tesla Speed (kmph) at 400 m Distance 179.6 194.7 190.1 Final Velocity (m/s) Acceleration (m/s²) Mass of the Car (kg)

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Directions Two car manufacturers are claiming their cars are able to accelerate the fastest. Your group will receive a data table that includes the makes and models of three cars from each manufacturer, the horsepower of the engines, the force of the engines, the time it takes each to reach 97 km/hr, and the time it takes each to travel 400 m. Your job is to prove which manufacturer has the fastest cars, using the concepts of Newton's second law. Procedure Fill in the missing values in the data table, using the information below. Important Points to Remember • Each car will travel the same distance: a little more than a quarter mile, or 400 m. • Initial velocity will be zero for each car. 1. Manufacturers have reported the speeds the cars reach at 400 m. Convert this speed into m/s for each car using dimensional analysis and fill in the column labeled Final Velocity in the table. 2. Calculate acceleration using final velocity and time. Use the kinematics formula for acceleration. Uf - Vi t 3. Using Newton's second law, calculate the mass of each car, using the force and the acceleration of each from the calculation table. a