T
he invention of the movie camera
is, ironically, a story worthy of
Hollywood. In 1888, the renowned
American inventor Thomas Edison
drew up plans to build a camera that
could record moving images onto a
cylinder. Within a few years,
colleagues had produced a more
sophisticated device that captured
images onto a reel of 35mm
photographic film – which remains the
standard format.
But even as Edison started work, a
French artist seemed to have beaten
him to the punch. Louis le Prince had
already built a single-lens camera,
and in 1888 used it to make a brief
silent movie of people walking in a
garden. As the oldest movie in
existence, Roundhay Garden Scene
appears to be proof that Le Prince
should be credited with inventing the
first movie camera. Yet his claim to
priority remains controversial because
just before patenting his device and
taking it on tour in America, in
September 1890, Le Prince vanished.
His wife suspected foul play, and in
2008 a magazine claimed that
evidence had emerged showing Edison
had arranged Le Prince’s
assassination. Yet while Edison
certainly had a motive, the ‘evidence’
has never been substantiated, and the
mystery of Le Prince’s disappearance
remains unsolved.Who really
invented the
movie camera?
GETTY, SCIENCE PHOTO LIBRARY ILLUSTRATION: PETER SUCHESKIA
lthough astronomers often discuss
the expansion of the universe in
terms of a two-dimensional plane, the
universe is, of course, three-dimensional
(at least in our spatial experience of it).
The expansion of the universe is the same
in all directions, so it is just as ‘tall’ (or
‘deep’) as it is ‘wide’. Unfortunately,though, we cannot know the size of the
universe. This is because light takes time
to reach us from the furthest depths of
space: we’re currently unable to see
beyond around 46 billion light-years (the
boundary of the ‘observable universe’). We
have no idea how much of the universe lies
beyond that.How tall is the universe?
Steven Grant, KommetjieTHOMAS
EDISONLOUIS LE
PRINCEA
s the Earth spins, the speed of rotation
experienced at the equator is much
faster than at the North Pole. This difference
causes the ‘Coriolis effect’ – a force which
appears to deflect winds towards the right in
the Northern Hemisphere. In a low-pressure
weather system, air flows inward, but this
deflection twists the air flow towards the right,
creating an anticlockwise swirl of winds. In a
high-pressure system, air flows outward, and
the deflection results in a clockwise rotation.
The Coriolis effect deflects winds towards the
left in the Southern Hemisphere, so weather
systems here spin in the opposite direction.Why do low-pressure systems turn
anticlockwise? Sam Mabizela, Johannesburg
Intended pathActual path
(northern hemisphere)Actual path
(southern hemisphere)THE CORIOLIS EFFECTThe Earth’s surface
travels faster at the
equator than at the
polesImagine a current of air moving
from the equator.Even though it’s moving in a
straight line, it appears to an
observer to bend towards the
right. This is because as it
moves northwards, the ground
beneath is moving
progressively slower and
hasn’t ‘caught up’ with the air
current.In the southern hemisphere,
this effect causes currents to
bend towards the left.1
2
3
EquatorQ&A
Questions & Answers
A It’s estimated that
there may be as many
as three sextillion (3,
followed by 23
zeroes) stars in the
universe.
A The observable
matter (stars and
planets) makes up
only 5% of the
universe.Q
&
A
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