at point A the skater has 3400 J of PE. At point D the skater has 1600 J of PE. how much KE does a skater have a point D 

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The image depicts a skier on a U-shaped ski slope to illustrate concepts of potential and kinetic energy in physics. The diagram is annotated with four points labeled A, B, C, and D. **Description:** 1. **Point A** is at the top left of the slope. The skier is stationary and positioned at the highest point. This position likely demonstrates maximum potential energy and minimum kinetic energy because of the height. 2. **Point B** is midway down the left side of the slope. The skier is in motion, with a conversion of potential energy to kinetic energy as the skier descends. 3. **Point C** is at the bottom of the slope. This position represents the lowest point where the skier has maximum kinetic energy and minimum potential energy. 4. **Point D** is midway up the right side of the slope, similar to point B but on the opposite side. The skier's kinetic energy is converting back to potential energy as the skier ascends. This diagram could be used in an educational setting to explain the conservation of energy, demonstrating how potential energy at the highest points (A and D) converts to kinetic energy at the lowest point (C) and vice versa. The U-shaped slope effectively shows this continuous energy transformation as the skier moves up and down the slope.