Shahjahan notes: Heat energy CONCEPT

The jam in a sponge pudding stays hotter for longer than the pudding around itWater is a very good coolant for use in enginesSaucepans are made of materials with a low mass if possibleIt takes a long time to heat up enough water to have a hot bathHouses built with thick stone walls keep warm in winter and stay cool in summerPeople used to warm up heavy china teapots before putting the hot water and tea in themStorage radiators are used to retain heat energy for use later in the dayYou can put out a candle flame (temperature 800 oC) with moist fingers without pain but putting your hand into a bowl of boiling water (100 oC) would hurt a lot!Electronic circuits are built with "heat sinks"When you run "hot" water into a basin it cools as soon as it touches the material of the basinLiquid sodium is used as a coolant in some nuclear reactors

All these facts are related to heat energy and to a quantity known as specific heat capacity and we can explain them by looking more closely at heat energy.Over the past few centuries scientists have put forward some very strange theories about the nature of heat. One of these was that heat was some sort of a fluid that you added to a body to make it hot and took away from a body to cool it down.

However, during the last century two men, Rumford and Joule, both proposed the idea that heat was related to energy. When heat energy passes into a body it increases the internal energy of the body. Rumford demonstrated this in some well-known experiments in cannon boring and Joule showed that the friction generated between a paddle wheel and some water would heat up the water.

We can summarise these results as:

To heat up a substance requires energy. This energy increases the internal energy of the substance by increasing the kinetic energy of its molecules and so the temperature of the substance rises

Heat capacity and specific heat capacity

The amount of heat energy needed to change the temperature of a substance depends on:(a) what the substance is; (b) how much of it is being heated;(c) what rise in temperature occurs.

The heat energy needed to raise the temperature of an object by 1 K is called the HEAT CAPACITY of the

Shahjahan notes: Heat energy CONCEPT

object.

However, a rather more useful quantity is the heat energy needed for 1 kg only.

The SPECIFIC HEAT CAPACITY of a substance is the heat needed to raise the temperature of 1 kg of the substance by 1K (or by 1oC).

Specific heat capacity is given the symbol c. The units for c are J/(kg K) or J/(kgoC).The values for the specific heat capacities of some common substances are given in the following table:

Substance Specific heat capacity (J/(kgK) Substance Specific heat capacity (J/(kgK)

Water 4200 Aluminium 913

Cast iron 500 Brick 840

Copper 385 Concrete 880

Lead 126 Marble 880

Remember that substances with high specific heat capacities take a lot of heat energy and therefore a long time to heat up and also a long time to cool down.

One interesting effect is the way in which the land heats up quicker than the sea - the specific heat capacity of sea water is greater than that of the land and so more heat energy is needed to heat it up by the same amount as the land and so it takes longer. It also takes longer to cool down.

The heat energy needed to raise the temperature of m kg of a substance of specific heat capacity c by a certain temperature difference is given by the equation:

Heat energy = mass x specific heat capacity x temperature change

Shahjahan notes: Heat energy CONCEPT

If the object cools then it gives out heat energy and if it heats up it takes in heat energy.

Example problems1. How much heat energy is needed to raise the temperature of 3 kg of copper by 6 K? (Specific heat capacity of copper = 385 J/(kg K)Heat energy = mass x specific heat capacity x temperature change = 3 x 385x 6 = 6930J

2. What is the rise in temperature of 5 kg of water if it is given 84 000 J of heat energy?Specific heat capacity of water = 4200 J/(kg K).Heat energy input = 84000 = 5x4200x temperature riseTemperature rise = 84000/[5x4200] = 4 K

3. How much heat is lost by 3 kg of lead when it cools from 1000 oC to 200 oC?Specifc heat capacity of lead = 126 J/(kg K) Heat energy given out = 3x126x80 = 30240J

4. A heater of 800W is use to heat a 600 g cast iron cooker plate. How long will it take to raise the temperature of the plate by 200 oC?Specific heat capacity of iron = 500 J/(kg K) Heat energy needed = 0.6x500x200 = 60 000JTime needed = 60 000/800 = 75 s = 1 minute 15 s

Conversion of mechanical energy to heat

When an object falls to the ground, the potential energy that it had at the top is converted to kinetic energy that finally becomes heat energy.Assuming no loss of energy to any other forms we can work out the rise in temperature of water falling over a high waterfall.

Example problemHeight of waterfall 84 m.Consider a mass of water m kgSpecific heat capacity of water = 4200 J/(kgoC).Gravitational field of the Earth = 10 N/kgPotential energy lost = Heat energy gained

Shahjahan notes: Heat energy CONCEPT

m x10 x 84 = m x 4200 x temperature riseTemperature rise = [10 x 84]/4200 = 0.2oC.

There must be no residual kinetic energy of spray and no sound must be made! (Clearly not true but it is the best we can do without making the problem very difficult).

This conversion of gravitational potential energy into heat energy can be used in the laboratory to measure the specific heat capacity of lead shot.

Example problemLength of cardboard tube = 1 mMass of lead shot = m kgThe tube is upended ten times giving a total height fallen of 10mTemperature rise 0.80 oCHeat energy gained by the lead shot = potential energy lost by the lead shotExpressed as a formula: m x specific heat capacity x 0.8 =m x10x10Therefore specific heat capacity of lead = 10x10/0.8 = 125 J/(kgoC)