The following drawing attached represents the newest ride at a new theme-park for the 2022 season. Scenario: You've been chosen as a test subject for a theme park's newest attraction. This is a single-person roller coaster ride with a 25.0 m drop followed by a plunger/piston device that brings the ride to a stop. The plunger/piston is linked to a 250 kg water-filled cylinder. The cart weighs 75.0 kg and begins at rest at the top of the track. To calculate the total mass of the cart during the ride, add your mass (MY MASS IS 55.7 KG). Friction in the wheels and axles produces 2750 J of thermal and sound energy combined as the cart moves down the track. The plunger/piston at the device's bottom has been designed to stop the cart with a maximum acceleration of 5.00 g's (49.0 m/s2). Answer the problems listed below. The main question has been marked with **. Problem #1: The cart with you inside of it starts from rest at the top of the ride. **At the top of the ride, calculate the gravitational potential energy of the cart with you as a single passenger. Problem #2: Gravitational potential energy is converted into kinetic energy, thermal energy, and sound energy as the cart moves down the track. **Determine the kinetic energy of the cart at the cart's bottom.