The 2-kg package seen in the figure is sent down a circular ramp with ρ = 0.5m from a conveyor belt. If its initial velocity is 1 m/s, determine the angle θ at which the package begins to fly off the ramp. (Hint: this is the greatest angle at which the weight of the package does work.) The image depicts a box sliding on a curved ramp. The box is initially moving with a velocity of \( v_0 = 1 \, \text{m/s} \) along a horizontal surface before descending a curved path. The curve has a radius of \( 0.5 \, \text{m} \).Key elements in the diagram:- The velocity \( v_0 = 1 \, \text{m/s} \) is shown with an arrow indicating the direction of motion.- The ramp is curved with a radius of \( 0.5 \, \text{m} \), which is marked from the center of curvature to where the box is positioned on the ramp.- The angle \( \theta \) is marked at the center of curvature, depicting the angle of descent relative to the horizontal.This setup can be used to study concepts of mechanics, such as motion on a curved path, centripetal force, and dynamics of rotational motion.

Name: The 2-kg package seen in the figure is sent down a circular ramp with
Uploaded: 2024-03-20T06:57:16.000Z
Channel: Bartleby
Description: The 2-kg package seen in the figure is sent down a circular ramp with ρ = 0.5m from a conveyor belt. If its initial velocity is 1 m/s, determine the angle θ at which the package begins to fly off the ramp. (Hint: this is the greatest angle at which t