A 75-kg block of ice at -13°C is placed in an oven set to a temperature of 105°C. The ice eventually vaporizes and the system reaches equilibrium. How much energy, in joules, is needed to vaporize all the water at 100°C? How much energy, in joules, is required to heat the resulting steam from 100°C to 105°C? What is the total energy, in joules, that is needed to heat the block of ice from its initial temperature to water vapor at its final temperature?

A 75-kg block of ice at -13°C is placed in an oven set to a temperature of 105°C. The ice eventually vaporizes and the system reaches equilibrium. How much energy, in joules, is needed to vaporize all the water at 100°C? How much energy, in joules, is required to heat the resulting steam from 100°C to 105°C? What is the total energy, in joules, that is needed to heat the block of ice from its initial temperature to water vapor at its final temperature?

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Question

A 75-kg block of ice at -13°C is placed in an oven set to a temperature of 105°C. The ice eventually vaporizes and the system reaches equilibrium.

How much energy, in joules, is needed to vaporize all the water at 100°C?

How much energy, in joules, is required to heat the resulting steam from 100°C to 105°C?

What is the total energy, in joules, that is needed to heat the block of ice from its initial temperature to water vapor at its final temperature?

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