PowerPoint on The Inverse Square Law and the distance to stars
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The Inverse Square Law and the distance
to stars.
• As a result of this law we can determine how far away a light source
is if we know its intrinsic luminosity – or the rate at which it radiates
energy per second – and measure its brightness when its energy
reaches us.
. This is the basis for the second method for measuring the distances
to distant stars and galaxies.
• For example, if we observe two stars, each of the same luminosity,
but one 100 times brighter than the other, then the brighter object
must be 10 times closer.
11/15/99
Norm Herr (sample file)
Luminosity of an object and its brightness
We can relate the luminosity of an object to its brightness as follows:
Consider a star which radiates its light equally in all directions.
• The brightness of any object is really a measure of its flux, or the
amount of energy from the object incident per unit area (I.e. per
square metre), per second.
• This brightness depends on the distance of the object from us, d.
• Lets assume that the object radiates its energy at a rate of L (I.e. L
joules per second). Then, at a distance d, this energy must be
radiated into an area of 4d2
• Therefore, we can relate the intrinsic luminosity, L, to a stars
brightness (or flux), and distance (d), via
Flux = L /4d2
11/15/99
Norm Herr (sample file)
• So, if we measure the brightness of the star, and know its luminosity, we
can easily calculate its distance.
The only problem is - how do we know the luminosity of the star ?
• Luckily, there is at least one class of star for which the intrinsic
luminosity can be calculated: the so-called CEPHEID VARIABLES.
These are stars that pulsate, and their period of pulsation depends on
their luminosity. So if we measure this period, we know the luminosity of
the star. Combining this with a measure of their brightness (flux), we can
then estimate their distance from us.
• Using these stars, it has been possible to measure the size of our
Galaxy, and the distance to other galaxies too.
• In fact, this is one of the fundamental methods astronomers have of
investigating the size of the Universe around us.
11/15/99
Norm Herr (sample file)