Heat

 Mind Maps

Class VII - science: Heat
Q) The materials which allow heat to pass through them easily are called?

Q) Name the device used to measure temperature?

Q) What is the thermometer called which measures our body temperature?

Q) What are the poor conductors of heat called?

Q) Which convection is believed to take place inside the Earth?

Q) Which energy will be transferred from the hotter body to the colder body?

Q) What is the measure of degree of hotness of an object called?

Q) Define conduction?

Q) In places of hot climate it is advised that the outer walls of houses be painted white? Explain?

Q) Explain about a clinical thermometer?

Q) What is sea breeze and land breeze? Which areas experience this phenomenon?

Q) Why do we wear woollen clothes in winter? Explain?

Q) What is Heat?

Q) What is Specific heat?

Q) What is Evaporation?

Q) What is Condensation?

Q) Explain in detail about Freezing?

Q) State similarities and differences between a clinical thermometer and laboratory thermometer?

Q) Explain the transfer of heat with an example?

Q) What are the precautions to be taken to read temperature using a clinical thermometer?

Q) What is convection? Explain with an example?

Q) Explain the kinds of clothes we wear in summer and winter seasons?

Q) What is an electromagnetic field capable of transfering energy from a source?

Q) Temperature measured on Kelvin scale is called?

Q) Explain the Applications of Specific heat capacity?

Q) Explain about the Method of mixtures?

Q) Explain in detail about Humidity?

Heat
Introduction

“Heat is the transfer of energy from a hot body”.

Hot and Cold
• The sense of touch can be used to understand the degree of hotness or coldness of something.
• But the sense of touch is not reliable and cannot be always used to say how much hot anything is. Moreover, using the sense of touch can be risky in case of something very hot.
• Thus, hotness of anything is measured in terms of TEMPERATURE in reliable way. To measure temperature a device called THERMOMETER is used.
Measuring Temperature
Unit of heat:
• There are three units which are used to measure the temperature: Degree Celsius, Fahrenheit and Kelvin.
• Degree Celsius: Degree Celsius is written as °C and read as degree Celsius or simply Celsius. For example 20°C, it is read as twenty degree Celsius.
• Fahrenheit: Fahrenheit is written as °F and read as degree Fahrenheit. For example 25°F, it is read as twenty five degree Fahrenheit.
• Kelvin: Kelvin is written as K. For example 100K, it is read as hundred Kelvin.
Thermometer:
• Thermometer is a device which is used to measure temperature.
• Thermometer is made of a long narrow glass tube, with a bulb at one end. The narrow tube appears as a continuous silver line, because it is filled with mercury.
• Mercury is a metal which is in liquid state at room temperature and it readily expands or contracts at the slightest change in temperature. Hence, mercury is used in thermometer.
Types of Thermometer:
• Laboratory Thermometer: Laboratory thermometer is used to measure the temperature. The scale of temperature is graduated generally from −10°C to 110°C over the glass tube.
• Each division of temperature scale is further divided into 10 parts to read fraction of temperature.
• Clinical Thermometer: Clinical Thermometer is used to measure the body temperature. The scale of temperature is graduated from 35°C to 42°C and or from 94°F to 108°F.

• The temperature of human body always remains within this range and this is the range on the clinical thermometer.
• There is a kink make near the bulb of clinical thermometer which prevents the automatic fall of mercury level.
• Digital Thermometer: In Digital Thermometer, reading of temperature is displayed digitally as in digital watches. This is safer because no mercury is used in this. It is important to note that mercury is a highly toxic substance.
• Maximum-Minimum Thermometer:Maximum-Minimum Thermometer is used to measure the daily temperature to prepare weather reports.
Reading of Thermometer and measuring of Temperature:
• Take a clinical thermometer and hold it horizontally with reading scale towards your eye.
• Do not hold the thermometer from the bulb.
• Rotate the thermometer slightly clockwise and anticlockwise. By doing this you will see a shiny thin silvery thread.
• The end of the silvery thread shows the reading of temperature. If mercury lining ends at 37, the reading is 37°C.
• Wash the bulb end of thermometer with an antiseptic solution.
• Give two or three jerks slightly. By doing this the mercury level would fall. When it falls to 35°C or below, put it below the tongue and wait for one minute.
• Take out the thermometer and read the temperature. Temperature would be near 37°C.
• The normal body temperature is 37°C. This can differ from person to person.
Use of Laboratory Thermometer:
• Take some water in a beaker.
• Take a laboratory thermometer and immerse its bulb end in water; holding it vertically. Ensure to dip whole portion of bulb end. The bulb end should not touch the bottom or side of the beaker.
• Observe the movement of rise of mercury. When it becomes stable, take the reading of the thermometer.
• Repeat this with hot water and take the reading.
Measuring Temperature of Water With A Laboratory Thermometer
Difference between clinical and laboratory Thermometer:
 Clinical Thermometer Laboratory Thermometer Clinical Thermometer is scaled from 35°C to 42°C or from 94°F to 108°F. Laboratory Thermometer is generally scaled from -10°C to 110°C. Mercury level does not fall on its own, as there is a kink near the bulb to prevent the mercury level. Mercury level falls on its own as no kink is present. Temperature can be read after removing the thermometer from armpit or mouth. Temperature is read while keeping the thermometer in the source, such as liquid or anything. To lower the mercury level jerks are given. No need to give jerk to down the mercury level automatically. Clinical Thermometer is used to take the body temperature. Laboratory thermometer is used to take the temperature in laboratory.
Transfer of Heat
• “Heat is transferred by conduction, convection and radiation”.
• Conduction:
• Transfer of heat from one particle to the adjacent particle is known as conduction of heat. In solids, heat is transferred by the process of conduction. In this process, the transfer of heat takes place through adjacent molecules.
Example:
• When one end of an iron rod is put over flame then part which is nearer to the flame is heated first and heat is gradually transferred to the other end of the rod.
• This happens because particles of iron rod which are nearer to the flame receive the heat and transfers this to the adjacent particles. Subsequently, the adjacent particles transfer the heat to the next adjacent particles.
• This process continues and heat reaches to the other end of the rod. Thus, heat transfer in solid takes place through conduction.
Heating Iron Rod On A Flame
Conductor and Insulator:
• Materials which allow heat to pass through it are called conductor or good conductor of heat.
• Example: Iron, copper, aluminium, etc.
• All metals are good conductors of heat. Since, mercury is a metal and found in liquid state at room temperature, that's why it is used in thermometer.
• Since metals are the good conductor of heat that's why kitchen utensils are made of metals or alloys of metals.
• Materials which do not allow heat to pass through them are called bad conductor or poor conductor of heat. They are also called insulators.
• Example: Rubber, wood, plastic, etc. This is the cause that handles of frying pan or other kitchen utensils are made of plastic.
Convection:
• The transfer of heat because of movement of the molecules of the medium, via mass transfer, is called convection or convection of heat. Water and air are bad conductors of heat.
• But they do become hot, inspite of being bad conductors. Heat transfer in fluids takes place through convection.
Convection in water:
• When water is heated in a pan, the particles of water which are near the source of heat, get heated first. Because of heating, they become light, and rise in water.
• The gap which is created because of rise of hot particles is filled cold particles of water from the surrounding area. Thus a cyclical movement of particles begins and ends up heating the whole water of the pan.
• The cyclical movement in fluids because of heating is called convection current.
Convection in air:
• Air gets heated because of convection, the way water gets heated. Air near the source of heat gets heated and rises above. This leaves a gap, which is filled by the colder air from the surrounding.
• The convection current thus starts in air which results in heating up of air.
• When you place your palm above a flame you will feel the hotness of the flame. But when you will place your palm below the flame the area will be colder.
• This shows how the colder air from below moves up, due to convection current.
Land and Sea Breeze:
Sea Breeze:
• In coastal areas, the breeze that moves from sea surface to the land is called sea breeze. This happens because, during daytime, land gets heated more quickly than water. As a result, warm air from land rises up, leaving a gap.
• To fill that gap, colder air from the ocean surface rushes towards the land. This phenomenon continues and a continuous flow of cold air keeps coming towards the land.
• This gives rise to the phenomenon which is called the sea breeze. Because of this, people living in coastal areas prefer to live in a sea facing house.
Land Breeze:
• In coastal areas, the breeze which moves from land towards the sea is called land breeze. In the night, the land cools down more quickly than the ocean surface.
• This makes the air over the water surface warmer than air over the land surface. Warmer air over the water surface rises in the air and air from the land rushes towards the water surface to fill the gap.
• This phenomenon continues which creates a flow of air from land to the sea. This phenomenon is called land breeze.
• All hot bodies emit heat by the process of radiation. Radiation of heat does not require a medium. Sunlight comes to the earth because of radiation as there is no medium present between the atmosphere of the earth and the sun.
• One can feel the heat of bonfire by standing around it. We get warmth from the room heater because of radiation.
Reflection and absorption of heat:
• When heat falls over an object some of the heat is absorbed by the body and some of the heat is reflected. The temperature of an object increases because of absorption of heat.
• In conventional room heater you can see the reflector attached with it. The reflector of the room heater reflects the heat towards the person sitting or standing near the room heater.
Kinds of Clothes we wear in Summer and Winter
• Reflection is the cause that umbrella is used to protect from heat of the sun in summer.
• Dark color absorbs more heat while light color reflects most of the heat. That's why wearing light colored clothes is preferred in summer, dark colored clothes are preferred in winter.
• Dark clothes absorb more heat and keep one comfortable in winter. On the other hand, light clothes reflect most of the heat and keep one comfortable in summer.
• Now-a-days many kitchen utensils come in black color, since utensils of black color absorb more heat and thus cooking becomes faster.
Woolen Clothes
• Woolen clothes are used in winter season. Wool is a poor conductor of heat. In addition to it, air gets trapped in woolen fiber to further increase the poor conductivity of wool. This prevents the radiation of heat of our body to the surrounding and prevents the cold from surrounding to affect our body. Thus, wearing woollen cloth makes one comfortable in winter season.
Important Terms
• Temperature: The reliable measure of hotness or coldness of anything.
• Thermometer: A device to measure the temperature.
• Degree Celsius: Unit of measurement of temperature.
• Clinical Thermometer: A device to measure the temperature of human body.
• Laboratory Thermometer: Used to measure the temperature in laboratory.
• Maximum-Minimum Thermometer: Use to measure the temperature of climate.
• Conduction: Mode of transfer of heat in solids.
• Convection: Mode of transfer of heat in liquids and air.
• Radiation: Mode of transfer of heat without medium.
• Conductor: Materials that allow the flow of heat through them.
• Insulator: Materials that do not allow the flow of heat through them.
• Land breeze: Breeze that flows from land surface to sea surface in summer nights.
• Sea breeze: Breeze that flows from sea surface to water surface in summer days.
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