Final answer:
The question entails finding the temperature at the bottom of a coffee pot and the rate of coffee evaporation from a glass pot, which are both physics-related problems primarily concerning heat transfer and evaporation. Calculations for temperature require knowledge of thermal conductivity, which is not provided, while calculations for evaporation depend on the heat of vaporization.
Step-by-step explanation:
The student's question is related to the concept of heat transfer within the field of Physics, specifically in the context of a glass coffee pot and its interaction with a heating element. Part (a) of the question is not fully answerable as it lacks the thermal conductivity value needed to calculate the temperature difference across the pot's thickness.
Nevertheless, we can say that if the inside temperature of the pot is 60.0°C and it's subjected to a constant heat transfer rate, the temperature on the other side would be higher, depending primarily on the thermal conductivity of the glass material.
Part (b) involves the calculation of the rate of evaporation based on the heat of vaporization. The formula to calculate the mass of water that can be evaporated with a given amount of energy is given by:
Mass (m) = Power (P) * Time (t) / Heat of vaporization (L)
where:
• Power (P) is the heat transfer rate in watts (J/s),
• Time (t) is the duration in seconds,
• Heat of vaporization (L) is the energy required to convert one kilogram of water to vapor at a constant temperature, expressed in joules per kilogram (J/kg).