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 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 %3D Vi nd Ax a) What is v, the (horizontal) x-component of the initial velocity vector v? b) What is vy, the (vertical) y-component of the initial velocity vector vi? c) Find the time t that the car is in the air. Neglect air resistance for this and all the questions below.
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 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 %3D Vi nd Ax a) What is v, the (horizontal) x-component of the initial velocity vector v? b) What is vy, the (vertical) y-component of the initial velocity vector vi? c) Find the time t that the car is in the air. Neglect air resistance for this and all the questions below.
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter3: Two-dimensional Kinematics
Section: Chapter Questions
Problem 28PE: (a) A daredevil is attempting to jump his motorcycle over a line of buses parked end to end by...
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