d. Balance the line using sequential restrictions and the longest-operating-time rule. Determine the task under each workstation and the idle time for each such task. Note: Leave no cells blank - be certain to enter " 0 " wherever required. Round your answers to 1 decimal place. e. What is the efficiency of the line balanced as in part (d) assuming it is running at the cycle time determined in part (a)? Note: Round your answer to 1 decimal place. f. Suppose that demand rose from 630 to 680 units per day. Determine the cycle time. Use the solution obtained in part (d).) Note: Round your answer for cycle time down to the nearest whole number. 9. Suppose that demand rose from 630 to 880 units per day. Determine the cycle time. (Use the solution obtained in part (d)) Note: Round your onswer for cycle time down to the nearest whole number. The following tasks are to be performed on an assembly line: The workday is 7.7 hours long. The demand for completed product is 630 per day. a. Find the cycle time required to meet the desired output rate. Note: Round your answer to 1 decimal place. b. What is the theoretical number of workstations required to meet the desired output rate? Note: Round up your answer to the next whole number