4. A 39.0 g piece of iron at 24.5 C is heated to 92.5 "C. If the theoretical specific heat capacity of iron is 0.449 Jig-"C, the amount of thermal energy added was J. (Record your six-digit answer in the numerical-response section below.)

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4. A 39.0 g piece of iron at 24.5 °C is heated to 92.5 °C. If the theoretical specific heat
capacity of iron is 0.449 J/g-°C, the amount of thermal energy added was
J.
(Record your six-digit answer in the numerical-response section below.)
Your answer: OO0
Numeric Response
5. At the start of spring, much of the Sun's energy goes into melting snow cover. The
absorption of 200 kJ of solar energy would allow the melting of
grams of ice.
(Record your three-digit answer in the numerical-response section below.)
Your answer. OO0O
Numeric Response
6. Condensation of water in the air is an important process in determining the climate
of an area. When 0.750 mol of water condenses in a cubic meter of air,
kJ of heat would be released.
(Record your three-digit answer in the numerical-response section below.)
Your answer:
Transcribed Image Text:Numeric Response 4. A 39.0 g piece of iron at 24.5 °C is heated to 92.5 °C. If the theoretical specific heat capacity of iron is 0.449 J/g-°C, the amount of thermal energy added was J. (Record your six-digit answer in the numerical-response section below.) Your answer: OO0 Numeric Response 5. At the start of spring, much of the Sun's energy goes into melting snow cover. The absorption of 200 kJ of solar energy would allow the melting of grams of ice. (Record your three-digit answer in the numerical-response section below.) Your answer. OO0O Numeric Response 6. Condensation of water in the air is an important process in determining the climate of an area. When 0.750 mol of water condenses in a cubic meter of air, kJ of heat would be released. (Record your three-digit answer in the numerical-response section below.) Your answer:
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