Part 1 of 10 - Conceptualize: Once the mug leaves the counter, it becomes a projectile. We ignore air resistance because the mug is much denser than the surrounding air. The diagram shows an estimate of what the trajectory of the mug might look like. From the coordinate system in the diagram, we see that the origin is the point at which the mug leaves the counter. Based on our everyday experiences and the description of the problem, a reasonable speed of the mug would be a few m/s. It will hit the floor at an angle between 0° and 90°. +y Ed- Part 2 of 10 - Categorize: Now that we understand the problem and have made estimates of our expected results, we identify the analysis model(s) needed to solve the problem. (1) Which of the following choices represents the best analysis model to use to describe the horizontal component of the motion of the beer mug? O particle under constant velocity particle under constant acceleration O particle in uniform circular motion O none of the above (2) Which of the following choices represents the best analysis model to use to describe the vertical component of the motion of the beer mug? O particle under constant velocity O particle under constant acceleration O particle in uniform circular motion O none of the above

Part 1 of 10 - Conceptualize: Once the mug leaves the counter, it becomes a projectile. We ignore air resistance because the mug is much denser than the surrounding air. The diagram shows an estimate of what the trajectory of the mug might look like. From the coordinate system in the diagram, we see that the origin is the point at which the mug leaves the counter. Based on our everyday experiences and the description of the problem, a reasonable speed of the mug would be a few m/s. It will hit the floor at an angle between 0° and 90°. +y Ed- Part 2 of 10 - Categorize: Now that we understand the problem and have made estimates of our expected results, we identify the analysis model(s) needed to solve the problem. (1) Which of the following choices represents the best analysis model to use to describe the horizontal component of the motion of the beer mug? O particle under constant velocity particle under constant acceleration O particle in uniform circular motion O none of the above (2) Which of the following choices represents the best analysis model to use to describe the vertical component of the motion of the beer mug? O particle under constant velocity O particle under constant acceleration O particle in uniform circular motion O none of the above