ne model v( E) 2E represents the velocity v (in meters per second) of an object in motion, where E is the kinetic energy of the object (in pules) and m is the mass of the object (in kilograms). The mass of Object A is 32 kilograms. The table shows the approximate velocity of Object B. Compare the velocities of the objects by finding and interpreting the average rates of change over the interval E = 2 to E = 6 . Object B Kinetic energy (joules) 0 2 6. 8 10 Velocity (meters per second) 0 0.43 0.60 0.74 0.85 0.95 + meter(s) per second per meter and the From 2 to 6 joules of kinetic energy, the velocity of Object A increases at an average rate of about meter(s) per second per meter. yelocity of Object B increases at an average rate of about

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The model v(E) 2E represents the velocity v (in meters per second) of an object in motion, where E is the kinetic energy of the object (in m joules) and m is the mass of the object (in kilograms). The mass of Object A is 32 kilograms. The table shows the approximate velocity of Object B. Compare the velocities of the objects by finding and interpreting the average rates of change over the interval E = 2 to E = 6. Object B Kinetic energy (joules) 2 4 6. 10 Velocity (meters per second) 0 0.43 0.60 0.74 0.85 0.95 * meter(s) per second per meter and the From 2 to 6 joules of kinetic energy, the velocity of Object A increases at an average rate of abou meter(s) per second per meter. velocity of Object B increases at an average rate of about