2(e). Where will the block be relative to the start of the problem, after 30.0 seconds? Paste a photo or scanned image of your handwritten calculations in this box (you can

erase this text). Resize your image to fit in the box as best as possible./n2(d). Describe in words (no calculation) the motion of the block. Paste a photo or scanned image of your handwritten calculations in this box (you can erase this text). Resize your image to fit in the box as best as possible./n2(c). Use Newton's 2nd law to determine the block's acceleration (magnitude and direction). Hint: if done correctly, the magnitude will be 0.303 m/s². Paste a photo or scanned image of your handwritten calculations in this box (you can erase this text). Resize your image to fit in the box as best as possible./n2(b). Determine the magnitude of all forces identified in the free-body diagram Paste a photo or scanned image of your handwritten solution in this box (you can erase this text). Resize your image to fit in the box as best as possible./nPROBLEM 2. A 20.0 kg block slides down an incline (0 = 15.0°) with an initial speed of 15.0 m/s as shown in the figure. The coefficient of kinetic friction between the block and inclined surfaces is 0.300. m 0 X 2(a). Draw a free-body diagram for the block Paste a photo or scanned image of your hand drawn solution in this box (you can erase this text). Resize your image to fit in the box as best as possible.