カテゴリー 全て - convection - radiation - conduction - thermal

によって farahridha ameerulshaun 12年前.

2258

Transfer of Thermal Energy

Thermal energy transfer occurs due to temperature differences and can happen through conduction, convection, and radiation. At thermal equilibrium, no heat transfer takes place. In conduction, heat moves through materials, with good conductors like cooking utensils and heat exchangers efficiently transferring heat, while insulators like sawdust and woolen clothes resist it.

Transfer of Thermal Energy

Transfer of Thermal Energy

Applications of Thermal Energy Transfer

Common applications of radiation
Vacuum flasks

prevents heat from exiting or entering

Greenhouses
Teapots

shiny teapots can keep tea warm longer than black teapots

Common applications of convection
Refrigerators
Air-conditioners
Household hot water system
Heating water in electric kettles
Common applications of conduction
Uses of bad conductors of heat (insulators)

fiberglass, felt and expanded polystyrene foam

Woolen clothes

Wooden ladles

Sawdust

Table mats- made of cork

Uses of good conductors of heat

Heat exchanges

Soldering iron rods

Cooking utenseils

Causes of transfer of thermal energy

no transfer of heat at thermal equilibrium
flows from a region of higher temperature to a region of lower temperature
difference in temperature

How thermal energy is transferred

An object with more heat than another does not necessary means it has a higher temperature than the other object
does not require a medium

Can happen in vacuum

Requires no medium

Due to infra-red radiation

Subtopic
takes place in only liquid and gas

Can happen in liquid and gas

Due to changes in density

takes place in solid, liquid, gas

Cannot happen in vacuum

Requires a medium

Can happen in solid, liquid, gas

Due to vibration of particles

Radiation

infrared radiation is absorbed by all objects and surfaces
An object absorbs heat when its temperature is lower than the surrounding
An object emits heat when its temperature is higher than its surrounding

Poor emitter is also a poor absorber

Good emitter is also a good absorber

causes temperature rise
The hotter the object, the greater the radiant heat emitted
Factors affecting rate of infrared radiation

Surface area

Surface temperature

Colour and texture of the surface

thermal energy from infrared waves is called radiant heat
All object radiate heat in the form of infrared radiation as they are above 0 kelvin
Continual emission of infrared waves from the surface of all bodies, transmitted without the aid of a medium

Convection

Air-con {convection current}
Warm air reaches the air-con gets cooled
Warm air at the bottom which is less dense rises
D=m/v , hence the density of the air increases and it sinks to the bottom
The air contracts and its volume is decreased
Air near the air-con is cooled
Kettle water heater
Cold water gets heated up by the water
colder water at the top is denser, hence it sinks
density decreases, hence it rises
volume increases
Water at the base gets heated up
Transfer of heat energy in fluids due to the difference in density
Particles do not expand/contract, it is the substance/object that expands/contracts.

Conduction

Conduction in liquids and gases
Hence, air is poor conductorof heat compared to water, which is in turn poor compared to solids
liquid particles are further apart and collisions of particles are less frequent and even lesser in gases

thus, transfer of kinetic energy from fast moving molecules to neighbouring molecules is slower

process of conduction is inefficient
When thermal energy is supplied to one end of a rod, the particles at the hot end vibrate vigorously
These particles collide with neighbouring particles, making them vibrate as well
Metals contain free electrons which move randomly between the atoms and molecules
Non metals do not have free electrons
Conductors and insulators have different mechanisms
Insulators

No free electrons

In insulators, the transfer of thermal energy is solely the results of vibrating atoms and molecules No free electrons

Good conductors

Fast moving electrons then diffuse into cooler parts of metals

Free electrons gain kinetic energy and move faster

In metals, another much faster mechanism of thermal energy takes place at the same time (free electron diffusion)