What’s the MATTER: Specific Heat of Matter

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Presentation transcript:

What’s the MATTER: Specific Heat of Matter

Matter, Specific Heat of Matter At the conclusion of our time together, you should be able to: Define specific heat Use specific heat to determine energy changes

Exothermic and Endothermic Processes Essentially all chemical reactions and changes in physical state involve either: release of heat, or absorption of heat

Exothermic and Endothermic Processes In studying heat changes, think of defining these two parts: the system - the part of the universe on which you focus your attention the surroundings - includes everything else in the universe

Exothermic and Endothermic Processes Together, the system and it’s surroundings constitute the universe Thermochemistry is concerned with the flow of heat from the system to it’s surroundings, and vice-versa.

Exothermic and Endothermic Processes 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

Exothermic and Endothermic Processes Heat flowing into a system from its surroundings: defined as positive q has a positive value called endothermic system gains heat (gets warmer) as the surroundings cool down

Energy Transformations Heat - represented by “q”, is energy that transfers from one object to another, because of a temperature difference between them. only changes can be detected! flows from warmer  cooler object

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 oC. Used except when referring to food a Calorie, (written with a capital C), always refers to the energy in food 1 Calorie = 1 kilocalorie = 1000 cal.

Units for Measuring Heat Flow The calorie is also related to the Joule, the SI unit of heat and energy named after James Prescott Joule 4.184 J = 1 cal Heat Capacity - the amount of heat needed to increase the temperature of an object exactly 1 oC Depends on both the object’s mass and its chemical composition

Heat Capacity and Specific Heat Specific Heat Capacity (abbreviated “C”) - the amount of heat it takes to raise the temperature of 1 gram of the substance by 1 oC often called simply “Specific Heat” Water has a HUGE value, when it is compared to other chemicals

Note the tremendous difference in Specific Heat. Water’s value is VERY HIGH.

Heat Capacity and Specific Heat For water, C = 4.18 J/(g oC) in Joules, and C = 1.00 cal/(g oC) in calories. Thus, for water: it takes a long time to heat up, and it takes a long time to cool off! Water is used as a coolant!

Heat Capacity and Specific Heat To calculate, use the formula: q = mass (in grams) x T x C heat is abbreviated as “q” T = change in temperature C = Specific Heat Units are either: J/(g oC) or cal/(g oC)

Practice #1 q = cp x m x t: q = 59.912 J cp = x m = 36.359 g t = 152.0 oC 59.912 J = (x)(36.359 g)(152.0 oC) = 0.01084 J/g oC

Practice #2 q = cp x m x t: q = -800. J cp = 0.4210 J/g oC m = 73.174 g t = (x – 102.0 oC) -800. J = 0.4210 J/goC (73.174 g)(x – 102.0 oC) -800. = 30.81x – 3142 2342 = 30.81x = 76.0 oC

Matter, Specific Heat of Matter Let’s see if you can : Define specific heat Use specific heat to determine energy changes

Define Specific Heat Specific Heat – the amount of energy required to raise the temperature of one gram of a substance by one Celsius degree or one Kelvin

Practice #3 q = cp x m x t: q = -185.4 J cp = 0.440 J/g oC m = x g t = -1475 oC -185.4 J = (0.440 J/goC )(x)(-1475 oC) -185.4 J = -649 Jg = 0.29 g

Practice #4 q = cp x m x t: q = x J cp = 0.0335 cal/goC (4.184 J/cal) m = 152.00 g t = -51.5oC x = (0.140164 J/goC )(152.00 g)(-51.5 oC) = -1.10 x 103 J

Calorimetry Calorimetry - the measurement of the heat into or out of a system for chemical and physical processes. Based on the fact that the heat released = the heat absorbed The device used to measure the absorption or release of heat in chemical or physical processes is called a “Calorimeter”

Calorimetry Foam cups are excellent heat insulators, and are commonly used as simple calorimeters under constant pressure. For systems at constant pressure, the “heat content” is the same as a property called Enthalpy (H) of the system (They are good because they are well-insulated.)

A foam cup calorimeter – here, two cups are nestled together for better insulation

Calorimetry Changes in enthalpy = H q = H These terms will be used interchangeably in this textbook Thus, q = H = m x C x T H is negative for an exothermic reaction H is positive for an endothermic reaction