Transcript Slide 1

GCSE: Extension Work
A2 Level :Resonance
Cooking with Microwaves
Cooking with Microwaves
• The microwave oven is well known as
a fast, quick and efficient way of
cooking food.
• Its invention has changed the way
we cook in the home.
Care when using the term
‘microwave’!
• Watch how you express the term
‘microwave’ in your answers!
• Distinguish clearly between
– ‘microwaves’ the waves – the photons of
electromagnetic energy and
– microwave ovens – the devices that cook
using that energy
Cooking with Microwaves
• The microwaves are produced by a magnetron
- a high-powered vacuum tube that generates
coherent (all ‘in step’ and of one wavelength)
microwaves.
• When you have the oven on a low setting you
can hear the magnetron being switched on and
off - delivering bursts of microwaves instead
of a full stream of them.
• The fan, that you can hear when the oven is
on, is there to cool the magnetron - without it
running the oven would overheat.
Cooking with Microwaves
• The microwave oven cooks food by using
high frequency electromagnetic waves
(part of the electromagnetic spectrum so their speed is 3 x 108 m/s in a
vacuum) called microwaves at 2.45 GHz.
• These are absorbed particularly well by
water, and fat and sugar to a lesser
extent.
Cooking with Microwaves
• They get absorbed by the surface of
the food and penetrate about 1cm into
food before it is all absorbed.
• The food is then hot on the surface and
the heat is then conducted deeper into
the cooler part of the food.
Cooking with Microwaves
• The wavelength of mircowaves are
between 1 millimetre and 30 centimetres.
• Try calculating the wavelength of
microwave oven microwaves! You should
KNOW the wave equation
c = speed of electromagnetic radiation = 3 x 108 m/s
f = frequency of the waves = 2.45 GHz = 2.45 x 109 Hz
Cooking with Microwaves
where
c = fl
c = speed of electromagnetic radiation = 3 x 108 m/s
f = frequency of the waves = 2.45 GHz = 2.45 x 109 Hz
l = wavelength of the microwaves
l = c/f
= 3 x 108 / 2.45 x 109
= 0.12 m or 12 cm ANS
Cooking with Microwaves
• Most food stuffs contain water.
• Microwaves are most readily absorbed
by water molecules (although fats and
sugars also absorb too!).
• These molecules then vibrate more
quickly and therefore rise in
temperature.
Cooking with Microwaves
• Some science books say that the
frequency of microwaves used in a
microwave oven is the 'natural
frequency' of water and resonance
is the mechanism that causes the
high amplitude vibration.
• That is not the case – the chosen
value of the frequency is not the
resonant frequency of the water
molecule.
Cooking with Microwaves
• The vibration is down to the push and
pull of the electric and magnetic forces
from the wave that cause the vibration.
• Water molecules (and sugars) are polar
(one part is negative compared to the
other).
Cooking with Microwaves
• The electromagnetic waves have an
electric field that 'pulls and pushes'
charged particles such as the water
molecule.
• This causes the water molecules (that
are attached together by hydrogen
bonds into chains) to twist and turn.
• Their vibrational and rotational energy
increases - so their temperature rises.
Cooking with Microwaves
• The frequency used in microwave ovens
(2.45 GHz) is a sensible but not unique
choice.
• Waves of that frequency penetrate well
into foods of reasonable size so that
the heating is relatively uniform
throughout the foods.
Cooking with Microwaves
• Leakage from these ovens makes the
radio spectrum near 2.45 GHz unusable
for communications - the frequency was
chosen in part because it would not
interfere with existing communication
systems.
Cooking with Microwaves
• Using a frequency that water molecules
responded to strongly (as in a
resonance) would be a serious mistake-the microwaves would all be absorbed by
water molecules at the surface of the
food and none would be able to reach
molecules deeper in the food.
Cooking with Microwaves
• Conduction is a slow process.
• So the food would not cook very well in
the centre if the resonant frequency
was used.
Cooking with Microwaves
The 2.45 GHz frequency was chosen
because
– it is absorbs well enough in liquid
water so that the waves maintain good
strength (even deep inside a typical
piece of food).
– Higher frequencies would penetrate
less well and cook less evenly.
Cooking with Microwaves
The 2.45 GHz frequency was chosen
because
– Lower frequencies would penetrate
better, but would be absorbed so
weakly that they wouldn't cook well.
– Also leakage from these ovens makes
the radio spectrum near 2.45 GHz
unusable for communications - if lots
of different frequencies were chosen
it would cause a problem in
communications..