Problem #1 the horizontal surface of a cliff with an initial horizontal velocity of magnitude vi = 40.0 m/s and into the ocean waters, as shown in the picture below. The edge of the cliff rises to a height H=60.0 m above the water. Your job is to detemine whether she will have enough time to leave the vehicle during flight, and whether she will be close enough to the base of the cliff to be rescued if something goes wrong. Working for the latest Hollywood production, a brave stuntwoman in her car rides off H. Ax a) What is Vir, the (horizontal).x-component of the initial velocity vector vi? b) What is vä, the (vertical) y-component of the initial velocity vector vị? c) Find the timet that the car is in the air. Neglect air resistance for this and all the questions below. d) What is va, the (horizontal) x-component of the final velocity vector v (right before slamming into the water)? sihon 0oda Insinc sdf 2sn aide

Please answer part D. Show all work and circle your answers! Thank you in advanced!

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Problem #1 the horizontal surface of a cliff with an initial horizontal velocity of magnitude v = 40.0 m/s and into the ocean waters, as shown in the picture below. The edge of the cliff rises to a height H= 60.0 m above the water. Your job is to determine whether she will have enough time to leave the vehicle during flight, and whether she will be close enough to the base of the cliff to be rescued if something goes wrong. Working for the latest Hollywood production, a brave stuntwoman in her car rides off Ax a) What is Vix, the (horizontal).x-component of the initial velocity vector vi? b) What is vir, the (vertical) y-component of the initial velocity vector vị? c) Find the time t that the car is in the air. Neglect air resistance for this and all the questions below. d) What is vA, the (horizontal) x-component of the final velocity vector v (right before slamming into the water)? ida sinu lo ind Page 2 of 7