(17.1) Energy Transformations

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Presentation transcript:

(17.1) Energy Transformations Thermochemistry - concerned with heat changes that occur during chemical reactions Energy – ability to do work or supply heat Chemical potential energy – energy stored in the chemical bonds of substance

Heat ,q- energy that transfers from one object to another, because of a temperature difference between them. only changes can be detected Always flows from warmer to cooler object

Exothermic and Endothermic Processes Chemical reactions and changes in physical state involve either: a) release of heat b) absorption of heat

• system - the part of the universe you are concerned with • surroundings – includes everything else in the universe Thermochemistry is concerned with the flow of heat: system  surroundings surroundings  system

The Law of Conservation of Energy states that in any chemical or physical process, energy is neither created nor destroyed. • All the energy is accounted for as work, stored energy, or heat.

Heat flowing into a system from it’s surroundings: • defined as positive • q has a positive value • called endothermic –system gains heat (gets warmer) as the surroundings cool down

Heat flowing out of a system into it’s surroundings: • defined as negative • q has a negative value • called exothermic –system loses heat (gets cooler) as the surroundings heat up

Units for Measuring Heat Flow A calorie is defined as the quantity of heat needed to raise the temperature of 1 g of pure water 1°C • Calorie always refers to the energy in food • 1 Calorie = 1 kilocalorie = 1000 cal 4.184 J = 1 cal 1 J = 0.2390 cal

Specific Heat Capacity, C the amount of heat it takes to raise the temperature of 1 gram of the substance by 1°C “Specific Heat” Heat Capacity depends on both the object’s mass and its chemical composition

For water: C = 4.18 J/(g ∙°C) in Joules C = 1.00 cal/(g∙°C) in calories So, for water: • it takes a long time to heat up • it takes a long time to cool off Water is used as a coolant!

Calculating C C = q/m x ∆T m = mass (grams) ∆T = change in temp (°C) q = heat (joules or calories) m = mass (grams) ∆T = change in temp (°C) • Units are either: J/(g∙°C) or cal/(g∙°C)

The temperature of a 95. 4 g piece of copper increases from 25 The temperature of a 95.4 g piece of copper increases from 25.0°C to 48.0°C when the copper absorbs 849 J of heat. What is the specific heat of copper?