If nothing can escape from a singularity,
how did the universe manage it?
Atandwa Sithole, DurbanE
instein’s theory of gravity
predicts that the universe
began in a singularity – a state of
zero size and thus infinite density
and gravitational force, which
would prevent it expanding. But
theorists believe that such a state- also predicted to exist inside
black holes – is the result of his
celebrated theory ignoring quantum
effects. These would prevent a truly
point-like singularity from forming,
eliminating the infinitely strong
gravity, and thus allowing the
universe to expand.
W
hen fish, shrimp or other aquatic
creatures swim together in a loose
cluster, this is typically called a shoal. It
can be a mix of different species. A
school is a group of the same fish
species swimming together in synchrony;
turning, twisting and forming sweeping,
glinting shapes in the water. Fish
probably do this to confuse predators
and to save energy (by using the
‘slipstreams’ of other fish). Pods are
herds of marine mammals including
whales, dolphins, walruses and seals.What’s the difference
between a shoal, a
school and a pod?
Hannah Miles, MargateHow do ocean tides
create magnetic fields?
Tina Mgabadeli, Port ElizabethW
e’re taught in science lessons that it’s possible
to create electric current by moving electrical
conductors through magnetic fields. Known as
Faraday’s law of induction, it’s the basic idea behind
electricity generation in power stations. But shortly
after discovering the effect in 1831, Michael Faraday
wondered if it might lead to a natural source of
electricity. To find out, he tried to detect the current
produced by the electrically conducting river water
flowing through the Earth’s magnetic field under
London’s Waterloo Bridge. The experiment, conducted
in January 1832, was a failure, but Faraday remained
convinced the currents did exist – if only
extremely weakly.
Earlier this year, a trio of ESA satellites called Swarm
were able to detect electric currents generated in the
world’s oceans as they are dragged through the
Earth’s magnetic field by the gravitational pull of the
moon. These currents are then able to induce their
own feeble magnetic fields – around 20,000 times
weaker than the Earth’s magnetic field. Mapping the
oceans’ magnetic signature required state-of-the-art
equipment unimaginable in Faraday’s time. But as well
as vindicating the Victorian genius’s claim, the
research is expected to provide a whole new way to
monitor the movements of the oceans.Q&A
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