Data table 2 Tooling can be reused at no extra cost because all of its cost has been assigned to the first deployment boat. The Eastern Shore Company, which is under contract to the U.S. Navy, assembles troop deployment boats. As part of its research program, it completes the assembly of the first of a new model (PT109) of deployment boats. The Navy is impressed with the PT109. It requests that Eastern Shore submit a proposal on the cost of producing another six PT109s. Eastern Shore reports the following cost information for the first PT109 assembled and uses a 90% cumulative average-time learning model as a basis for forecasting direct manufacturing labor-hours for the next six PT109s. (A 90% learning curve means b=0.152004.) Requirement 1. Calculate predicted total costs of producing the six PT109s for the Navy. (Eastern Shore will keep the first deployment boat assembled, costed at $1,478,800, as a demonstration model for potential customers.) Begin by determining the hours used to produce the six PT109s for the Navy. (Round intermediary and final answers to the nearest whole number.) The total cumulative time in labor-hours for seven PT109s is hours; therefore, the total time to produce six PT109s is hours. Now calculate the predicted total costs of producing the six PT109s. (Round your answers to the nearest whole dollar.) Requirement 2. What is the dollar amount of the difference between (a) the predicted total costs for producing the six PT109s in requirement 1, and (b) the predicted total costs for producing the six PT109s, assuming that there is no learning curve for direct manufacturing labor? That is, for (b) assume a linear function for units produced and direct manufacturing labor-hours. Begin by calculating the predicted total costs for producing the six PT109s, assuming that there is no learning curve for direct manufacturing labor. (Round your answers to the nearest whole dollar.) The difference between (a) requirement 1 's predicted total costs and (b) predicted total costs with no learning curve is