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Specific Heat and Calculating Heat Absorbed

Specific Heat and Calculating Heat Absorbed. Mr. Chapman Chemistry 30. From the Last Class. Recall the definition of a calorie : The amount of energy required to raise the temperature of 1 gram of pure water by 1 degree Celsius. Also recall that the calorie is equal to 4.184 J.

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Specific Heat and Calculating Heat Absorbed

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  1. Specific Heat and Calculating Heat Absorbed Mr. Chapman Chemistry 30

  2. From the Last Class... Recall the definition of a calorie: The amount of energy required to raise the temperature of 1 gram of pure water by 1 degree Celsius. Also recall that the calorie is equal to 4.184 J. That quantity, 4.184 J/g°C, is known as the specific heat of water. The symbol for specific heat is (c).

  3. Specific Heat The specific heat of any substance is the amount of heat required to raise one gram of the substance by one degree Celsius. To raise the temperature of water by 1 degree Celsius requires 4.184 J of energy. You will find that other substances require much less energy to raise their temperatures by 1 degree Celsius.

  4. Water vs. Concrete It turns out that water has a much higher specific heat capacity than concrete does. The specific heat of concrete is 0.84 J/g°C, whereas the specific heat of water 4.184 J/g°C. If you have 1 kg of each substance at 0°C, which of them will take more energy to raise to a temperature of 50°C?

  5. Water vs. Concrete It takes more energy to heat the water to 50 degrees Celsius than it takes to heat the concrete block to 50 degrees Celsius!

  6. Heat Calculations • It seems like if we know the specific heats of many substances, we should be able to tell how much heat is required to raise the substances to a certain temperature. • And guess what? We can! Aren’t you happy?! • It turns out that three important things matter when calculating the heat lost or gained by a substance:

  7. 3 Important Factors Mass There is a direct relationship between mass and the amount of heat required to raise a substance to a specific temperature. The symbol for mass is m. In other words, the relationship between mass and heat required is linear.

  8. 3 Important Factors Continued.. Temperature Change The temperature that you want to raise a substance to is equally important as the mass of the substance that you have. Temperature change is often given the symbol Δt, and is equal to final temperature – initial temperature.

  9. 3 Important Factors Continued... Specific Heat The specific heat of the substance is important because it tells you exactly how much heat is required to raise the temperature of the substance. The symbol for specific heat is (c).

  10. The Heat Equation These 3 important factors lead us to the heat equation: q = mc Δt Where: q = heat (energy in J) m = mass (in grams) c = specific heat (in J/g°C) Δt = temperature change (in °C)

  11. Examples • 12 g of ethanol were heated from an initial temperature 6.2 °C to a final temperature of 19.8 °C. How much heat was absorbed by the ethanol? • The temperature of a sample of iron with a mass of 10.0 g changed from 50.4 °C to 25.0 °C with the release of 114 J. What is the specific heat of iron?

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