Solid honorite has a melting temperature of 261.05 K, and a heat capacity of 450.6 J/kgK. When it is liquid, its heat capacity is 568.6 J/kgK. The latent heat for the transition from solid to liquid is 15100 J/kg. Liquid odium has a freezing temperature of 331.96 K and a heat capacity of 439.8 J/kgK. When solid, its heat capacity is 343.8 J/kgK. The latent heat for the transition from solid to liquid is 11000 J/kg. A 4.42 kg block of honorite at 261.05 K is immersed in 14.17 kg of liquid odium at 390.01 K and left to achieve thermal equilibrium in an isolated, insulated container. How much energy was gained by the odium during this process? (A positive value means energy was added. A negative value means energy was lost.)
Solid honorite has a melting temperature of 261.05 K, and a heat capacity of 450.6 J/kgK. When it is liquid, its heat capacity is 568.6 J/kgK. The latent heat for the transition from solid to liquid is 15100 J/kg. Liquid odium has a freezing temperature of 331.96 K and a heat capacity of 439.8 J/kgK. When solid, its heat capacity is 343.8 J/kgK. The latent heat for the transition from solid to liquid is 11000 J/kg. A 4.42 kg block of honorite at 261.05 K is immersed in 14.17 kg of liquid odium at 390.01 K and left to achieve thermal equilibrium in an isolated, insulated container. How much energy was gained by the odium during this process? (A positive value means energy was added. A negative value means energy was lost.)
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