In a bar, a customer slides an empty mug down the bar for a refill. The bartender does not see It and it slides off the bar and strikes the floor a distance d = 1 m from the base of the bar. The height of the bar is h = 1.2 m. You may assume that the bar is horizontal and ignore air resistance. (a) With what speed did the mug leave the bar? dx = Vox't •t-4.9.ta dx = 1m dy=-1.2m dy= Voy⋅t. Vox = ? Voy = Omls ax = 0m/s ay = -9.8 m/s2 -1.2= -4.9+2 -4.9 -4.9 а √tª = √0.2448 t = 0.495 s (b) With what speed did the mug hit the ground? 1 = Vox (0.495) 0.495 0.495 Vox = 2.02 m/s

This is a practice problem from my physics class. I was able to find V_ox for part a but I'm not sure what equation to use for part b and how to solve. Please explain with steps

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= In a bar, a customer slides an empty mug down the bar for a refill. The bartender does not see it and it slides off the bar and strikes the floor a distance d 1 m from the base of the bar. The height of the bar is h = 1.2 m. You may assume that the bar is horizontal and ignore air resistance. (a) With what speed did the mug leave the bar? dx = Vox't dy=Voy-t-4.9.t2 dx = 1m dy = -1.2m Vox = ? Voy = 0mis ax=0m/s ay = -9.8 m/s 2 -1.2= -4.9t2 -4.9 -4.9 2 √ta = √0.2448 t=0.495 s (b) With what speed did the mug hit the ground? Answer key: 5.25 m/s 1 = Vox (0.495) 0.495 0.495 Vox = 2.02 m/s