Heat and Temperature Notes PDF

Summary

These notes cover fundamental concepts of heat and temperature, including definitions, effects like expansion and changes of state, and different temperature scales. The document explains how heat relates to the energy of molecules and how temperature relates to the average kinetic energy of those molecules.

Full Transcript

HEAT AND TEMPERATURE.
Introduction
 All substances in our surrounding are made up of molecules.
 These molecules are generally at motion and possess kinetic energy.
 At the same time each molecule exerts a force of attraction on other molecules and so they
possess potential energy.
 The sum of the kinetic and potential energy is called the internal energy of the molecules.
 This internal energy, when flows out, is called heat energy.
 This energy is more in hot substances and less in cold substances and flows from hot
substances to cold substances.
Heat
Heat is a form of energy that flows from a hot object to a cold object.
Heat is the total energy of the motion of the molecules of a substance.
It flows due to temperature difference.
The heat is dependent on factors like the speed of the particles, the size of the particles and
the number of particles.
Its SI unit is joule, J. It can also be measured in calories.
Heat is measured using calorimeter or joule meter.
A calorimeter is an insulated container used to measure the heat exchanged in a
chemical/physical process.

Effects of Heat
 When a substance is heated, the following things can happen.
1.Expansion:
 When heat is added to a substance, the molecules gain energy and vibrate and force other
molecules apart.
 As a result, expansion takes place. You would have seen some space being left in railway
tracks.
 It is because, during summer time, more heat causes expansion in tracks.
 Expansion is greater for liquids than solids and it is maximum in gases.
2.Change in State:
 When you heat ice cubes, they become water and water on further heating changes into
vapour.
 So, solid becomes liquid and liquid becomes gas, when heat is added.
 The reverse takes place when heat is removed.
3. Change in Temperature:
 When heat energy is added to a substance, the kinetic energy of its particles increases and
so the particles move at higher speed.
 This causes rise in temperature.
 When a substance is cooled, that is, when heat is removed, the molecules lose heat and its
temperature falls.
4.Chemical changes:
 Since heat is a form of energy it plays a major role in chemical changes.
 In some cases, chemical reactions need heat to begin and also heat determines the speed
at which reactions occur.
 When we cook food, we light the wood and it catches fire and the food particles become
soft because of the heat energy.
 These are all the chemical changes taking place due to heat.

Temperature.
Temperature is a measure of hotness or coldness of an object.
Temperature is a number that relates to the energy possessed by the molecules of a
substance, which directly relates to the kinetic energy possessed by the particles of the
substance.
The temperature is directly related to the kinetic energy of the molecules, therefore if you
double the temperature (Kelvin) of a substance, you double the average kinetic energy
possessed by those molecules.
It is measured kelvin (K).
The temperature, is independent of the speed of the particles, the size of the particles and
the number of particles.
For example, let’s compare a tub of water with a cup of water. The water in the tub and the
cup can be at the same temperature but by the virtue of the number of particles in the tub,
the water in the tub has more thermal energy in it and thereby more heat even though they
have the same temperature.

Temperature scales.

Temperature is measured using two primary scales : Celsius ( 0C) and Kelvin (K)

Celsius is commonly used for everyday temperature measurements, while Kelvin is used in
scientific contexts.

Celsius scale is based on freezing point of pure water at standard atmospheric pressure
(100°C) and Freezing point of pure water (0°C)
Kelvin scale is the absolute temperature scale, where is 0 k represents zero(-2730C), the
lowest possible temperature.

To convert Celsius to Kelvin, add 273. K=0C+273

To convert Kelvin to Celsius, subtract 273. 0C=K-273.

Common temperature measurements.

Body temperature 370C

Freezer temperature -180C

Boiling point of water at sea level 1000C

Freezing point of water 00C

Room temperature 20-250C

Hottest temperature recorded on Earth (in Furnace Creek Ranch, Death Valley, USA 56.70C
Comparison of Heat and Temperature.

Quantity Used
Heat Temperature
to Compare

Temperature is the measure of
The heat of an object is the total internal energy
Definition the average kinetic energy of the
of all the molecules inside that object.
molecules in a substance.

SI Unit Joule Kelvin

Unit Joules, Calories Fahrenheit, Celsius, Kelvin

Symbol Q T

It is like a level which determines
It’s a measure of the number of atoms the direction in which the heat
Particles multiplied by the energy possessed by each will flow. It is related to how fast
atom. the molecules within a substance
are moving.

It can be used to measure the
Ability to do degree of heat.
It has the ability to do work
Work

Heat is transferred from one object to another
Temperature doesn't flow or
due to a temperature difference. Heat transfer
Transfer transfer between objects; it's a
can occur through conduction (direct contact),
mechanism property of an individual object or
convection (through a fluid or gas), or radiation
system
(through electromagnetic waves).

Heat is measured using calorimeter or joule Temperature is measured using
Measurement
meter thermometer