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Beranda / Draw Energy Transfer Diagram For Letting A Clockwork Car Run

Draw Energy Transfer Diagram For Letting A Clockwork Car Run

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Energy stores

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Key points

  • can be described as being in different 'stores'.

  • Energy cannot be created or destroyed.

  • Energy can be transferred from one store to another.

What is energy?

Energy is a quantity that is conserved - it cannot be created or destroyed. Energy can be stored and transferred.

One way we can understand energy is to use a .

Have a look at the table that uses money as a model to help us understand energy.

Idea it is explaining Money as a model How the model links to energy
Energy's ability to be stored We store our money in pockets, purses and bank accounts. Energy is stored. For example, energy is stored in the kinetic energy store in objects that move.
Energy can be transferred When we pay for an item in a shop we are transferring our money from one store (pocket, purse or wallet) to another (the till). Energy can be transferred between different stores.
The unit of energy In the United Kingdom, money is measured in pounds sterling (£). Energy is measured in (J).

Energy stores

There are several stores of .

Kinetic energy store

The runner has more energy in their kinetic energy store when they are running faster.

The amount of energy in the kinetic energy store depends on the speed of the object.

Gravitational potential energy store

The box has more energy in its gravitational potential energy store when it is placed on a higher shelf.

The amount of energy in the gravitational potential energy store depends on the height of the object.

Thermal energy

An object has more energy in its thermal energy store when it is hot than when it is cold.

The amount of energy in the thermal energy store depends on the temperature of the object.

Chemical energy

Batteries, foods and fuels store energy in their chemical energy stores. The candle wax in the picture is a type of fuel.

Transfer of energy from the chemical energy store occurs due to chemical reactions.

Elastic potential energy

A stretched or squashed object has more energy in its elastic energy store.

The amount of energy in the elastic energy store depends on the amount of extension or compression.

Conservation of energy

In the 18th century the French philosopher, Émilie du Châtelet, did an experiment. She dropped a number of balls from different heights then observed how they fell and their impact with the surface they landed on.

She found that the amount of the balls had when held high up was the same as the amount of energy they had when they were moving.

After analysing all of her data, du Châtelet concluded that energy cannot be created or destroyed.

This is now known as the Law of Conservation of Energy which means that energy doesn't appear or disappear.

Energy can be transferred between different stores of energy.

When energy transfers take place in a :

the total energy stored before = total energy stored after.

For example:

The gravitational potential energy and kinetic energy of a ball as it falls to the ground. The gravitational potential energy decreases and the kinetic energy increases as the ball falls.
When a ball falls to the ground, the gravitational potential energy decreases and the kinetic energy increases

Video - conservation of energy

Energy transfers

Energy can be transferred by:

  • mechanical working – when a force is applied to move an object through a distance

  • electrical working – when charge flows (electricity)

  • heating – when energy is transferred between hotter and colder regions

  • radiation – when energy is transferred as a wave, for example as light or sound

Representing energy transfers

We can show how energy is transferred by using a transfer diagram.

Mechanical

A force is applied to move an object, for example when a person lifts a book onto a high shelf.

A flow chart showing energy in chemical store in muscles is transferred by doing mechanical work into energy in gravitational store of a book.

Electrical work

Charges flow in a circuit, for example in a battery powered toy train.

A flow chart showing energy in chemical store in a battery is transferred by doing electrical work into energy in kinetic store of a toy train.

Heating

Energy moves from the thermal store of a hotter object to the thermal store of a cooler object, for example when a handwarmer is used to warm up your hands.

A flow chart showing energy in thermal store in a handwarmer is transferred by conduction into energy in thermal store of hands.

Radiation

Energy is transferred as a wave, for example infra red radiation from a toaster to a slice of bread.

A flow chart showing energy in thermal store of a grill element is transferred by infrared radiation into energy in thermal store of food.

Energy dissipation

When is transferred within a , energy can be . This is where energy is 'wasted' by being transferred out to the surroundings. Energy becomes stored in less useful ways.

Energy is usually dissipated to the surroundings by heating, though sometimes energy is dissipated by radiation, for example by sound waves.

The ways in which energy is dissipated depends on the system.

For example, in a tumble dryer:

  • The electrical work is done so energy is transferred usefully into the thermal energy store of the tumble dryer and the kinetic energy store of the tumble dryer. This helps to dry the clothes.

  • Energy is dissipated to the surroundings by sound waves and by heating. This is not useful.

Test your knowledge

Quiz - Multiple choice

Source: https://www.bbc.co.uk/bitesize/guides/z99jq6f/revision/3

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