You exert a quick push on a 20-g ice cube horizontally along the top of a smooth incline so that it starts moving at a speed of 0.80 m/s, as shown in the figure. After you stop pushing it, the cube slides down the incline as shown in the figure.

Calculate the speed of the ice cube when it reaches the bottom of the incline.

Transcribed Image Text:

The image depicts a block sliding down a ramp. The diagram includes a block positioned at the top of the ramp with an initial velocity of \( v = 0.80 \, \text{m/s} \). The ramp is inclined and ends on the right side, where the block is expected to descend and move off the ramp following a curved trajectory marked by a dashed line. ### Dimensions: - The ramp has a vertical height of 20 cm from the top to the base. - The base of the ramp extends 30 cm horizontally on each side (for a total width of 60 cm). ### Description: - A light blue block is shown at the top left corner of the ramp. - An arrow indicates the initial direction and velocity of the block at the top of the ramp. - The dashed line represents the anticipated path the block will take as it moves down the ramp and exits its edge. This figure is typically used to understand principles of physics, such as motion, forces, and kinematics, illustrating how an object behaves on an inclined plane and the effect of gravity on its path.