USE GRESA METHOD TO SOLVE THIS PROBLEM 5. A box of mass M sits on top of a frictionless inclined plane which makes an angle with level ground. Once the box is put to motion, it slides to the bottom of the inclined plane. Suppose it covered a distanced during the slide, what is its speed at the bottom of the inclined plane if (a) the reference point (point where the potential energy is zero) is at the bottom of the inclined plane, along the ground, with +y upwards, and (b) if the reference point is at the top of the inclined plane, with +y upwards?

USE GRESA METHOD FOR THE SOLUTION 5. A box of mass M sits on top of a frictionless inclined plane which makes an angle θ with level ground. Once the box is put to motion, it slides to the bottom of the inclined plane. Suppose it covered a distanced during the slide, what is its speed at the bottom of the inclined plane if (a) the reference point (point where the potential energy is zero) is at the bottom of the inclined plane, along the ground, with +y upwards, and (b) if the reference point is at the top of the inclined plane, with +y upwards?

Transcribed Image Text:

USE GRESA METHOD TO SOLVE THIS PROBLEM 5. A box of mass M sits on top of a frictionless inclined plane which makes an angle 0 with level ground. Once the box is put to motion, it slides to the bottom of the inclined plane. Suppose it covered a distanced during the slide, what is its speed at the bottom of the inclined plane if (a) the reference point (point where the potential energy is zero) is at the bottom of the inclined plane, along the ground, with +y upwards, and (b) if the reference point is at the top of the inclined plane, with +y upwards?