Sybelle mows her lawn with a gas-powered push mower. Her neighbor, Anwar, uses a tractor-style riding mower. Sybelle’s push mower has a mass of 32 kg, and Anwar’s riding mower has a mass of 214 kg. The graphs show the kinetic energy of Sybelle’s push mower and Anwar’s riding mower at their most common speeds. Graph 1, Speed versus Kinetic Energy for Push Mower. Kinetic energy increases from 0 Joules at 0 meters per second to 8 Joules at 0 point 5 meters per second. Then to 16 Joules at 1 meter per second and then to 36 Joules at 1 point 5 meters per second. Graph 2, Speed versus Kinetic Energy for Riding Mower. Kinetic energy increases from 0 Joules at 0 meters per second to 240 Joules at 1 point 5 meters per second. Then to 425 Joules at 2 meters per second and then to 680 Joules at 2 point 5 meters per second. Use the data in the graphs to determine which mower has more kinetic energy at 1.5 m/s. Describe the relationship between mass and kinetic energy of the two mowers. Predict which mower will cause the most damage if it runs over a toy in the yard. Use energy to explain your prediction. Enter your answer in the space provided.Sybelle mows her lawn with a gas-powered push mower. Her neighbor, Anwar, uses a tractor-style riding mower. Sybelle’s push mower has a mass of 32 kg, and Anwar’s riding mower has a mass of 214 kg. The graphs show the kinetic energy of Sybelle’s push mower and Anwar’s riding mower at their most common speeds. Graph 1, Speed versus Kinetic Energy for Push Mower. Kinetic energy increases from 0 Joules at 0 meters per second to 8 Joules at 0 point 5 meters per second. Then to 16 Joules at 1 meter per second and then to 36 Joules at 1 point 5 meters per second. Graph 2, Speed versus Kinetic Energy for Riding Mower. Kinetic energy increases from 0 Joules at 0 meters per second to 240 Joules at 1 point 5 meters per second. Then to 425 Joules at 2 meters per second and then to 680 Joules at 2 point 5 meters per second. Use the data in the graphs to determine which mower has more kinetic energy at 1.5 m/s. Describe the relationship between mass and kinetic energy of the two mowers. Predict which mower will cause the most damage if it runs over a toy in the yard. Use energy to explain your prediction. Enter your answer in the space provided.