10 Details We Don’t Know About Everyday Things
10 Why Do Hiccup Cures
Work?
Hiccups are weird things, and we’re
not even sure why they happen. There’s no real, practical reason for a hiccup,
and we don’t know why all of our tried-and-true hiccup cures work. Everyone has
their favorites, from eating a spoonful of sugar to holding your breath until
the hiccups stop. There are so many ways to get rid of a hiccup that no matter
where you are when you get it, someone will have a suggestion for making it
stop. It turns out that none of the cures are guaranteed to work for everyone,
and there’s not much scientific support for any of them. As for the ones that do work? Well, don’t really know why
they do.
Hiccups are essentially caused by the diaphragm having a spasm, which can be
caused by anything from laughing to medication. Stopping a hiccup seems to rely
on a couple of different things. Raising the amount of carbon dioxide in the
blood seems to have some success in stopping hiccups, but no one’s sure what
that has to do with the process. Other somewhat successful remedies work by
impacting the vagus nerve, which is involved in making sure we don’t try to
breathe and swallow at the same time. We don’t know what that has to do with
the diaphragm, either, but that seems to be why things like pressing on your
eyes or pulling your ear help—those actions stimulate the nerve. Another method
that’s been found to cure hiccups is, bizarrely, rectal massage. Used as a cure
for an extreme case of the hiccups in 1988, its success was once again traced
back to stimulating the same vagus nerve.
9Why Are Moths Attracted To Light?
We’ve all watched it happen, and chances are we never really
thought about it that much. Bugs—particularly moths—are attracted to light, but
why? It’s the principle that many bug traps and zappers are built on, but no
one knows just why it works. There are a couple of different theories about why
moths are attracted to light, but there’s not even one that stands out as a
front-runner. In fact, there are pretty convincing arguments against all of them.
One theory suggests that only man-made, artificial lights
attract bugs. Presumably, there’s something different about artificial light
that interferes with the bugs’ ability to navigate, but we don’t even know
whether bugs are using light as a navigational aid. It’s also been suggested
that moths may be confusing the frequencies of artificial lights with
pheromones given off by willing mates, but there’s nothing to really support
that theory, either.
Researchers have found that it’s a pretty bizarre behavior,
specifically because it seems to cross species but also works against the
survival of those species. In spite of the kamikaze behavior that could be
expected to discourage the practice—or at least kill off the part of the
population that does it—it’s still a major behavior pattern.
8What Is Foam?
Every time you wash dishes or lather your hands with soap,
you’re creating one of the most mysterious household compounds: foam. Foam
isn’t classified as a liquid, a gas, or a solid, but it’s all three at the same
time. Different substances form different types of foam that all seem to work
differently. There’s not much that’s actually known about the physics of what
forms this weird cohesion of matter states or how we can predict what type of
foam will be formed from what type of substance.
Most foams are made up primarily of gas in between bits of
liquid, but there’s no mathematical formula for discovering how a foam will
behave. Some foams are stiff, like shaving foams, while others are delicate,
like soap bubbles. The size of the bubbles doesn’t seem to have any impact on
how the foam behaves. The reason we haven’t been able to learn much about foam
is a weird one.
Foam bubbles are inherently oddly shaped. The critical point of
foam, defined as the moment when all the bubbles in the foam are perfectly spherical,
isimpossible to achieve on Earth because of gravity. Gravity pulls foam bubbles downward, and its
impact is so great that even in a layer of foam just a few centimeters thick,
there’s a definite difference between the shape of the bubbles at the bottom
and the top. This makes it impossible to perform experiments on foam without
changing what it is.
7Why Does Static
Electricity Happen?
It’s a mildly annoying occurrence that usually happens when the
weather’s dry and you’ve done something like walking across a carpet. While we
know how static electricity builds up, the question of why it happens is a surprisingly complicated one, with a weirdly
elusive answer.
The problem in finding an explanation happens when one of the
materials involved is, theoretically, an electrical insulator. There’s no
confirmed reason for why an electrical charge should be transferred from or to
an insulating material; an insulator, by nature, shouldn’t allow this. The
problem is further complicated by the fact that different materials and
conductors have different mechanisms for the cause, buildup, and transfer of
static electricity.
A static electric shock can also occur between two objects made
of identical materials, which makes the phenomenon even stranger. In theory,
the difference in properties should be what makes the electrical charge jump
from one material to the other, but experiments performed by rubbing two
identical materials together have shown that static electricity still passed
between the two objects. Currently, there are no satisfactory answers from the
fields of physics or chemistry, suggesting that it’s actually a way more
complicated phenomenon than either can account for on their own.
6Where Did Dogs Come
From?
They’re some of our most constant companions, but there’s a lot
we don’t know about when dogs were first domesticated, where the process
happened, and what the first domesticated dogs even were.
Studies on the subject have proven highly inconclusive, with
estimates for the first domestication ranging from 9,000–34,000 years ago. Not
only is that a huge gap, but it leaves a lot of unanswered questions as to how it
happened. Dogs on the most distant end of that scale would have been
associating with hunter-gatherer groups, while the more recent instances of
domestication would have been happening when the human race had already
discovered agriculture and settled into a more sedentary lifestyle.
Researchers from the University of Turku have isolated DNA from
some of man’s early canine companions with some staggering implications. Some of the oldest DNA samples were
taken from dogs that were living alongside humans around 33,000 years ago and
were traced through to dogs that lived in Greenland about 1,000 years ago. But
this particular DNA seems to be unrelated to today’s dogs, and it’s now
suggested that some of the “dogs” that were domesticated for thousands of years
weren’t the same as today’s dogs and were instead a sort of sister species.
Ancient dogs have been found in Europe, the Middle East, and Asia, but it’s
still not known if the idea of domestication spread from one area to the other
or occurred independently in all areas. If it did, it’s not known who was
first.
5We’re Not Really
Sure What Colors Are
Our world is filled with color, and for the most part, we’ve
reached a consensus on what certain colors are. It’s easy enough to identify a
banana as yellow and broccoli as green, but what’s to say one person’s image of
green is the same as another’s? Not much, and it turns out that science really
isn’t sure that we’re all seeing the same colors in the same way. The idea
seems odd, especially considering that the mechanism that allows us to see
colors is essentially the same: Light enters our eyes, it’s interpreted there,
and then it’s processed by our brain. But it turns out that it’s not as
clear-cut as that, and the idea of colorblindness is only part of the reason.
We know that different people have different numbers of photo
receptors in their eyes. People who are colorblind have weak receptors, most
commonly suffering from a deficiency in the ability to detect green (or
variations of green). But there’s another end to the spectrum, too: people who
are theoretically incredibly sensitive to color. Tetrachromats can see more colors
than exist in the normal color spectrum. To them, the rest of us appear
colorblind.
But that’s a pretty extreme example, and experiments suggest
that the way we see colors can differ considerably between individuals. When
monkeys whose photoreceptors would normally only allow them to see blue and
yellow were infected with a virus that changed the type of color their eyes
could interpret, they demonstrated the ability to see these new colors. They recognized that the colors
were different, but we have no way of telling what their brains were
interpreting the colors as. They were essentially seeing new colors that their
eyes had never had the ability to process, making the link between the eyes
receiving colors and the brain processing colors even more vague.
4Is A Virus Alive?
For the most part, everything falls into one of two categories:
It’s either alive, or it isn’t. Ever since scientists have been aware of the
existence of viruses, they’ve been unable to successfully determine which of
these two very distinct groups viruses belong to. Originally, viruses were
thought to be alive. The scientists that discovered viruses saw them as
organisms that could spread and multiply, suggesting that they were very
clearly alive. By the 1930s, however, researchers from the Rockefeller
University were finally able to get a look into what was going on inside a
virus. Since it didn’t have any metabolic functions, they decided that it wasn’t
alive.
But it’s far from clear, as further research by the same team discovered that a virus also exhibits one of the key components
of life: reproduction. It not only makes more of itself but creates more
proteins and internal chemical structures. Viruses have also been known to
change over time, evolve, and carry on processes like repairing damage done to
them. All this seems to indicate they’re alive, unless nonliving organisms are
also capable of evolution, which seems like a pretty odd thing to even suggest.
Viruses are also unable to carry on these processes outside of a
living host, leading some to suggest that they’re functioning on something
along the lines of life borrowed from another organism—but that doesn’t make
the answer any more clear.
3Why Do We Age (And
At Different Rates)?
Every day we deal with the problems of aging, ever so gradually.
We’ve been doing it for as long as we’ve been a species, but we have no idea
what actually causes it. We know what happens to cells as they age: Muscles
lose mass, tissues become more or less rigid, connective tissues stiffen, and
new cells become less and less efficient at absorbing nutrients and removing
waste. We just don’t know why.
There are a couple of different theories on why cells age the
way they do, including the idea that the aging process is a by-product of the
body’s waste materials, or that it’s because of damage done by external factors
like ultraviolet rays. It’s also been suggested that we’re simply genetically
programmed to age, and how fast or how well we age has nothing to do with external factors.
Even more bizarre is the question of why we age at different
rates. Looking at the methylation patterns of cells gives an indication of how
old they are, and all of our cells age at different rates. Female breast
tissue, for example, shows patterns and changes that indicate it’s about three
years older than a person’s calendar age. At the other end of the spectrum are
heart cells, which age more slowly and can actually test as being several years
younger than the body as a whole. Just why the body ages as it does—and why it
ages at all—is nowhere near being completely understood.
2What Causes A
Migraine?
Those who are prone to migraines know what it feels like to have
one starting. It’s a special kind of headache that goes way beyond just pain
and can include nausea, vomiting, painful sensitivity to stimuli, blurred
vision, and even loss of consciousness. What we’re not sure about is why
some people get migraines and why there are so many different triggers for
them. Some people can have migraines that are triggered by anything from a
change in the weather to bright sunlight and physical exertion. For some, it’s sensory—migraine can be
triggered by a certain smell or exposure to a certain food, drink, or food
additive.
Even those sensitive to certain triggers don’t always get
migraines when they’re exposed to those triggers, and they can also come down
with a migraine without being exposed. Just why it happens to people isn’t
known, although it’s suspected that there’s a genetic connection, because
migraines seems to run in families. One suggestion is that people susceptible
to migraines have parts of their brains that are more sensitive to certain
stimuli than others or that migraines happen in response to certain changes in
brain chemistry. So far, though, there have been no concrete findings regarding just what
causes migraines in some people and not others.
1Why Do Allergies
Come And Go?
Living with allergies can be a nightmare. From not being able to
indulge in ice cream or not being able to own a pet to feeling like you’re
always on the verge of coming down with the flu, allergies can make life
difficult. Many people suffer from allergies, which makes it even more
surprising that we have no idea why they have a tendency to come and go,
seemingly at random. Almost any kind of allergy can disappear—and reappear—over
time. Some people may find their symptoms are occasionally greatly reduced,
even if they don’t go away completely.
Peanut allergies are among the most potentially dangerous types
of allergies, and it’s recently been discovered that about 20 percent of people
who have peanut allergies as children lose
their sensitivity as they get older. As much as 80
percent of children with milk allergies outgrow their sensitivity by the time
they’re in their teens, and those allergic to eggs will also commonly outgrow
the allergy. Blood tests can tell if an allergy is going away, and sometimes
desensitization done with small amounts of food or food prepared in a certain
way can help—but this should always be done under the supervision of a doctor.
Even stranger is the fact that kids today are much more
likely to outgrow their allergies than the kids of the
last generation, which raises more questions than it answers.
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