There are three equations of uniformly accelerated motion, the odd one
out is
A. final_velocity = initial_velocity + (acceleration × time)
B. distance_moved = (initial_velocity × time) + (0.5 × acceleration × time²)
C. final_velocity² = initial_velocity² + (2 × acceleration × distance_moved)
D. final_velocity = initial_velocity + (2 × acceleration × distance_moved)
out is
A. final_velocity = initial_velocity + (acceleration × time)
B. distance_moved = (initial_velocity × time) + (0.5 × acceleration × time²)
C. final_velocity² = initial_velocity² + (2 × acceleration × distance_moved)
D. final_velocity = initial_velocity + (2 × acceleration × distance_moved)