Solve questions 1-11.

Stunt driver, Delores "Smitty" Smith, in a deluxe Delorean, equipped with a (non-working) flux capacitor starts at rest and accelerates at a constant 10 m/s^2. She drives horizontally 750 m off the edge a 200 m high cliff. #IO (Driver Smith parachutes to safety.) 1. How much time did the car take to reach the start of the ramp? 2. How fast is the car going just as it hits the beginning of the ramp? 3. How much time was the car in the air? 4. How high, relative to the canyon floor, did the car reach? 5. What is the horizontal displacement of the car when it impacts on the canyon floor? 6. What is the car's displacement vector, in both rectangular and polar, relative to the start of the stunt? 7. How fast is the car going just as it impacts the canyon floor? 8. What is the car's velocity vector just before impact with the canyon floor? 9. What is the car's acceleration vector during impact with the canyon floor, assume the impact lasted 0.10 s? 10. How many g's of acceleration did the car experience if the impact lasted 0.10 s? # 1/ If the flux capacitor and fusion reactor were both functioning, at what point on the horizontal approach to the ramp will the time travel function activate? Give the answer in terms of time and distance