1) A block is initially at point A at the base of an incline and is pushed upward with an initial velocity, vA. The coefficient of kinetic friction between the block and the incline is 0.275, so the block slows down as it moves uphill. The block comes to a stop at point C, a vertical distance H above point A. At point A, the gravitational potential energy is zero. Use: mblock=10.0 kg, H=1.00 m, d= 3.06 m, g=9.80 m/s2 a) Draw the appropriate free-body diagram and label the forces. b) Find the work done by gravity from A to C c) Find the work done by friction from A to C d) Use the work-energy theorem (Wnet=?K) to determine the initial speed vA e) Now use conservation of energy to solve the same problem, starting from Ui+Ki+WNC=Uf+Kf . Show all your work