A long rod, insulated to prevent heat loss along its sides, is in perfect thermal contact with boiling water (at atmospheric pressure) at one end and with an ice-water mixture at the other. The rod consists of 1.00-m section of copper (one end in steam) joined end-to-end to a length L2 of steel (one end in ice). Both sections of the rod have cross-sectional areas of 4.00 cm?. The temperature of the copper-steel junction is 65.0°C after a steady state has been set up. a.) How much heat per second flows from the steam bath to the ice-water mixture? b.) What is the length L2 of the steel section? (keet = 50.2W / m· K and kcopper %3D = 385.0W / m· K)

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A long rod, insulated to prevent heat loss along its sides, is in perfect thermal contact with boiling water (at atmospheric pressure) at one end and with an ice-water mixture at the other. The rod consists of 1.00-m section of copper (one end in steam) joined end-to-end to a length L2 of steel (one end in ice). Both sections of the rod have cross-sectional areas of 4.00 cm². The temperature of the copper-steel junction is 65.0°C after a steady state has been set up. a.) How much heat per second flows from the steam bath to the ice-water mixture? b.) What is the length L2 of the steel section? (keed = 50.2W / m · K and k.copper = 385.0W / m· K)