GIVING A ball (mass=0.68 kg) approaches the bottom of the hill, moving at 8.8 m/s. It proceeds to roll up the straight incline (angle of inclination = 3.5 degrees), slowing down at a constant rate of 0.95 m/s^2. It travels 23 m along the hill before the hill becomes more of a curve than a straight line. Given that the ball's speed after 23 m is 5.8 m/s and the time the ball took to slow down was 3.2 seconds, then determine the ball's change in height.

People with normal vision cannot focus their eyes underwater if they aren't wearing a face mask or goggles and there is water in contact with their eyes. in a simplified model of the human eye, the aqueous and vitreous humors and the lens all have a refractive index of 1.40, and all the refraction occurs at the cornea, whose vertex is 2.60 cm from the retina.with the simplified model of the eye, what corrective lens (specified by focal length as measured in air) would be needed to enable a person underwater to focus an infinitely distant object? (be careful-the focal length of a lens underwater is not the same as in air! assume that the corrective lens has a refractive index of 1.62 and that the lens is used in eyeglasses, not goggles, so there is water on both sides of the lens. assume that the eyeglasses are 2.05cm in front of the eye.)