%u062c%u0645%u064a%u0639 %u0627%u0644%u062d%u0642%u0648%u0642 %u0645%u062d%u0641%u0648%u0638%u0629 %u0640 %u0627%u0625%u0644%u0639%u062a%u062f%u0627%u0621 %u0639%u0649%u0644 %u062d%u0642 %u0627%u0645%u0644%u0624%u0644%u0641 %u0628%u0627%u0644%u0646%u0633%u062e %u0623%u0648 %u0627%u0644%u0637%u0628%u0627%u0639%u0629 %u064a%u0639%u0631%u0636 %u0641%u0627%u0639%u0644%u0647 %u0644%u0644%u0645%u0633%u0627%u0626%u0644%u0629 %u0627%u0644%u0642%u0627%u0646%u0648%u0646%u064a%u062946- 46 -3 - Share of the rolling ton of the cost of waiting time of the ship in the case of four berths* Occupancy rate of four berths= (Daily arrival rate of ships %u00d7 average vessel service time) %u00f7 number of berths. = (1.2 %u00d7 2.75) 4 4 = 82.5 is close to 83%.* Waiting factor is equivalent to 74%, and was reached from the table of waiting factors of vessels in front of occupancy rate of 83% and under four berths.* Average waiting time of vessel = Waiting factor %u00d7 Mean time of ship service = 74% %u00d7 2.75 = 2 days waiting for each vassal* Total time to wait for all ships = Number of vessels %u00d7 Mean time of waiting of vessel = 438 %u00d7 2 = 876 days.* Total cost of vessel waiting time= Total time to wait for all vessels %u00d7 Daily cost of the vessel= 876 %u00d7 10000 = 8760000 pounds* The share of ton rolling from the waiting time= Total cost of vessel waiting time %u00f7 Expected quantity of goods per year= 8760000 %u00f7 602250 = 14.5 pounds per ton* Total costs per ton of rolling = Total cost of the port per ton of cargo traded + Ton share of the cost of the time of the ship's survival beside the berth + share of ton rolling from the waiting time = 15.3 + 20 + 14.5 = 49.8 pounds per ton.By repeating the same steps mentioned above for five berths, six berths, and seven berths, the results indicated in the following table