30332954
Description
Mind Map by Flo Sumpter, updated more than 1 year ago
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Created by Flo Sumpter
over 3 years ago
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P1 - Energy stores and systems
- energy is transferred between stores
- when energy is transferred to an
object the energy is stored in one
the objects energy stores
- these energy stores are : 1. thermal energy stores
2. kinetic energy stores 3. Gravitational potential
energy stores 4. elastic potential energy store 5.
chemical energy stores 6. magnetic energy stores
7. electrostatic energy stores 8. nuclear energy
stores.
- energy is transferred mechanically (by a force doing
work), electrically (work done by moving charges),
heating or by radiation (light or sound)
- when energy is transferred to an
object the energy is stored in one
the objects energy stores
- when a system changes, energy is transferred
- system = fancy word for a single object (e.g the air in a
piston) or a group of objects ( e.g two colliding vehicles)
that you're interested in.
- when a system changes, energy is transferred. It can be transferred
into or away from the system, between different objects in the
system or between different types of energy stores
- Closed systems are systems where neither matter
nor energy can enter or leave. The net change in
the total energy or a closed system is always zero.
- system = fancy word for a single object (e.g the air in a
piston) or a group of objects ( e.g two colliding vehicles)
that you're interested in.
- Energy can be transferred by heating
- take the example of boiling water in a kettle
- think of the water as the system.
- energy is transferred to the water (from the kettle's heating
element) by heating, into the water's thermal energy store
(causing the temperature of the water to rise)
- energy is transferred to the water (from the kettle's heating
element) by heating, into the water's thermal energy store
(causing the temperature of the water to rise)
- you can also think of the kettle's heating element
and water together as a 2 object system.
- energy is transferred electrically to the thermal
energy store of the kettle's heating element,
which transfers energy by heating to the water's
thermal energy store.
- energy is transferred electrically to the thermal
energy store of the kettle's heating element,
which transfers energy by heating to the water's
thermal energy store.
- take the example of boiling water in a kettle
- think of the water as the system.
- energy can be transferred by doing work
- work done is another way of saying energy
transferred - they're the same thing.
- work can be done when current flows or by
a force moving an object.
- the initial force exerted by a person to throw a ball upwards does work.
it cuases an energy transfer from the chemical energy store of the
person's arm to the kinetic energy store of the ball and arm.
- A ball dropped from height is accelerated by gravity. the gravitational
force does work. it causes energy to be transferred from the ball's
gravitational potential energy store to it's kinetic energy store.
- in a collision between a car and a stationary object, the
normal contact force between the car and the object
does work. It causes energy to be transferred from the
car's kinetic energy store to another energy store
- work done is another way of saying energy
transferred - they're the same thing.
- movement means energy in an
object's kinetic energy store.
- anything that's moving has energy in its kinetic energy store. energy
is transferred to this store when an object speeds up and is
transferred away from this store when an object slows down
- the energy in the kinetic energy store depends on the object's mass and
speed. the greater its mass and the faster it's going, the more energy there
will be in its kinetic energy store.
- FORMULA - Ek = 1/2mv2
- kinetic energy (J)= 1/2 x mass(kg) x speed2 (m/s2)
- kinetic energy (J)= 1/2 x mass(kg) x speed2 (m/s2)
- anything that's moving has energy in its kinetic energy store. energy
is transferred to this store when an object speeds up and is
transferred away from this store when an object slows down
- raised objects store energy in the gravitational potential
energy store
- lifting an object in a gravitational field requires
work. this causes a transfer of energy to the
gravitational potential energy store of the raised
object. the higher the object is lifted, the more
energy is transferred to this store.
- the amount of energy in the g.p.e store depends on the
object's mass, its height and the strength of the
gravitational field of the object is in
- EQUATION - Ep = mgh
- g.p.e (J) = Mass (kg) x gravitation field strength (N/kg) x Height (m)
- g.p.e (J) = Mass (kg) x gravitation field strength (N/kg) x Height (m)
- lifting an object in a gravitational field requires
work. this causes a transfer of energy to the
gravitational potential energy store of the raised
object. the higher the object is lifted, the more
energy is transferred to this store.
- falling objects transfer energy
- when something falls,
energy from its gravitational
potential energy store is
transferred to its kinetic
energy store
- for a falling object when there's no air resistance:
energy lost from the g.p.e store = energy gained in
the kinetic energy store
- in real life, air resistance acts against all falling objects - it causes
energy to be transferred to other energy stores,
- e.g the thermal energy stores of the object and surroundings
- e.g the thermal energy stores of the object and surroundings
- when something falls,
energy from its gravitational
potential energy store is
transferred to its kinetic
energy store
- stretching transfers energy to the elastic
potential energy stores
- stretching or squashing an object can transfer energy
to its elastic potential energy store
- as long as the limit of proportionality hasn't been
exceeded energy in the elastic potential energy
store of a stretched spring can be found.
- EQUATION - Ee = 1/2ke2
- Elastic potential energy(J) = 1/2 x spring constant(N/m) x (extension)2 (m)2
- Elastic potential energy(J) = 1/2 x spring constant(N/m) x (extension)2 (m)2
- stretching or squashing an object can transfer energy
to its elastic potential energy store
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