(c) The position, in terms of time, of a block of mass 0.50 kg on a frictionless horizontal surface, at the end of a horizontal spring which has a force constant of 1000 N/m, is x = (0.022m)cos(2mft) ) Determine the total mechanical energy of the system. (i) Determine the maximum velocity of the block. (i) Determine the velocity of the block when x= 0.011 m. (iv) What would the graph of x = (0.022m)cos[(2nft) + represent? [Discuss the similarities and the differences between the two graphs of x= (0.022m)cos(2mft) and x= (0.022m)cos[(2aft) +. (v) Draw the acceleration vs time graphs on top of each other, of x= (0.022m)cos(2nft) and x= (0.022m)cos[(2nft) +. Interpret what is represented graphically.

Can you please help me with  (iv)and (v)only thanks.

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(c) The position, in terms of time, of a block of mass 0.50 kg on a frictionless horizontal surface, at the end of a horizontal spring which has a force constant of 1000 N/m, is x = (0.022m)cos(2nft) ) Determine the total mechanical energy of the system. (ii) Determine the maximum velocity of the block. (iii) Determine the velocity of the block when x= 0.011 m. (iv) What would the graph of x = (0.022m)cos[(2nft) + represent? [Discuss the similarities and the differences between the two graphs of x= (0.022m)cos(2nft) and x = (0.022m)cos[(2ft) +. (v) Draw the acceleration vs time graphs on top of cach other, of x= (0.022m)cos(2nft) and x = (0.022m)cos[(2mft) +. Interpret what is represented graphically.