Tag: Science

Pique the Geek 20120122: Chlamydia, a Serious STI

Last time we talked about trichonomiasis, a sexually transmitted infection (STI) that often produces no symptoms.  Chlamydia is another STI that often causes no symptoms, at least initially.  We shall investigate this condition this week and then move to topics other than STIs next time.

This infection is usually caused in humans by the bacterium Chlamydia trachomatis and is found only in humans.  Unlike trichomoniasis, women are more often asymptomatic than are men.  Estimates are that around 75% of women present with no symptoms whislt around 50% of men do have symptoms, almost the opposite from our infection of the week last time.

Although this is a serious subject, let us keep it a bit light.  After the fold in a song by Todd Rundgren called “You Left me Sore”.  Although most likely written about gonorrhea, it is still apt in this case.

Pique the Geek 20120115: Trichomoniasis, a Very Common STD

Trichomoniasis is probably the most commonly spread sexually transmitted disease (STD) in the US at present, yet hardly anyone has heard of it.  The main reason is that there are many “silent” cases, with no symptoms at all.

The purpose of this piece is to raise awareness of this infection in the hope of doing a small part to have people get themselves tested.  Unlike HPV Strains 16 and 18, it is not strongly linked to cervical cancer, there is evidence that it can increase the risk of this disease to a small extent, but any increase in risk for cervical cancer is too big an increase.  By the way, we covered HPV some time ago, here.

Fortunately, after diagnosis it is easily treated and cured in the course of a week or two, depending on the regimen used.  We shall get into that near the end of the piece.

This is sort of an unusual piece for me, because many years ago, before the former Mrs. Translator and I were an item, I became infected with this parasite.  As we cover the subject, I shall insert my personal observations where appropriate.

Pique the Geek 20120108: Aluminum Part II of II

Last week we discussed the production and uses of aluminum, and that piece got a lot of comment traffic and made the Kos Recommended List, which I value greatly.  Some of the comments asked questions and made me decide to write a follow up piece, because some of the questions were excellent in their own right, and some of them also caused me to think a bit further about our use of this material.

Tonight we shall concentrate on a few more uses of aluminum, why it is so unique, and less environmentally damaging ways to produce it.  It turns out that there is an experimental process to refine aluminum that does not produce nearly as much carbon dioxide as the Hall-Héroult process, and might be more energy efficient as well.

There is no time like the present, so let us get started!  That is unless you have an objection.

Pique the Geek 20120101: Aluminum

Aluminum (or aluminium to our UK friends) is one of the most useful metals that are commonly available.  Unlike other metals such as iron, copper, and the like, aluminum has been used in large quantities only fairly recently.  Actually, alumimium is the better name, because it is in keeping with the naming of most metallic elements with the “ium” ending.  However, we shall use the US term.  Interestingly, the brilliant British chemist Sir Humphrey Davy called it aluminum, but he never produced the actual metal.  In addition, his first name for it was alumium, and folks from My Little Town who were older used that name!  That really should be the systematic name for it.

Aluminum compounds have been known for centuries, but the free metal only since around 1825 and even then in an impure form.  It was not until very late in the 19th century that aluminum was produced on a large scale, using a process that is essentially identical with the process being used even now.

How Did They Do That? Easy, Balls

Stonehenge is a massive prehistoric stone monument located just north of Salisbury, England, constructed anywhere from 3000 BC to 2000 BC. The surrounding circular earth bank and ditch, which constitute the earliest phase of the monument, have been dated to about 3100 BC. The site and its surroundings were added to the UNESCO’s list of World Heritage Sites in 1986.

The history of Stonehenge’s function and construction is subject to much debate since it was produced by a culture that left no written records that has led to multiple theories. Whatever religious, mystical or spiritual elements were central to Stonehenge, its design includes a celestial observatory function, which might have allowed prediction of eclipse, solstice, equinox and other celestial events important to a contemporary religion.

Two of the big questions about the construction of Stonehenge are: Where were these stones? How were these massive stones, weighing tons, moved from where they were quarried? Those questions have some answers, the first, official and the second, an interesting theory.

It’s Official: Stonehenge Stones Were Moved 160 Miles

Some of the volcanic bluestones in the inner ring of Stonehenge officially match an outcrop in Wales that’s 160 miles (257 kilometers) from the world-famous site, geologists announced this week.

As it looks today, 5,000-year-old Stonehenge has an outer ring of 20- to 30-ton sandstone blocks and an inner ring and horseshoe of 3- to 5-ton volcanic bluestone blocks. [..]

So how did a primitive society move these gigantic stones from Wales to the plains of Salisbury? Easy. Balls. Or at least that is the lasted theory that archaeologists have presented:

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U.K. archaeology students attempt to prove a rail-and-ball system could have moved Stonehenge stones.

Photograph courtesy University of Exeter

A previous theory suggested that the builders used wooden rollers-carved tree trunks laid side by side on a constructed hard surface. Another imagined huge wooden sleds atop greased wooden rails.

But critics say the rollers’ hard pathway would have left telltale gouges in the landscape, which have never been found. And the sled system, while plausible, would have required huge amounts of manpower-hundreds of men at a time to move one of the largest Stonehenge stones, according to a 1997 study.

Andrew Young, though, says Stonehenge’s slabs, may have been rolled over a series of balls lined up in grooved rails, according to a November 30 statement from Exeter University in the U.K., where Young is a doctoral student in biosciences.

Young first came up with the ball bearings idea when he noticed that carved stone balls were often found near Neolithic stone circles in Aberdeenshire, Scotland

Balls and a lot of “heart” 😉

H/t Rachel Maddow Blog

Pique the Geek 20111225: Pagan Christmas Traditions

Christendom, like other religions before it, assimilated former religions to forge its own traditions.  This is very much the rule rather than the exception when a new religion begins to dominate an older one.  It is easier to get people to come to your point of view if do not change things too much.

There are a number of pagan traditions that were assimilated into the Christmas tradition, and not all of them were done simultaneously.  For example, the Yule log is much  more recent than celebrating Christmas on 25 December (and that date is not universal, by the way).  Let us look as some of our customs that are not Christian at all.

Dinner Time

A Black Hole’s Dinner is Fast Approaching

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Astronomers using ESO’s Very Large Telescope have discovered a gas cloud with several times the mass of the Earth accelerating towards the black hole at the centre of the Milky Way. This is the first time ever that the approach of such a doomed cloud to a supermassive black hole has been observed. This Video News Release shows the new results and includes spectacular simulations of how the cloud will break up over the next few years.

ESO, the European Southern Observatory, is the foremost intergovernmental astronomy organisation in Europe and the world’s most productive astronomical observatory. ESO provides state-of-the-art research facilities to astronomers and is supported by Austria, Belgium, Brazil, the Czech Republic, Denmark, Finland, France, Germany, Italy, the Netherlands, Portugal, Spain, Sweden, Switzerland and the United Kingdom. Several other countries have expressed an interest in membership.

ESO’s main mission, laid down in the 1962 Convention, is to provide state-of-the-art research facilities to astronomers and astrophysicists, allowing them to conduct front-line science in the best conditions. The annual member state contributions to ESO are approximately 131 million Euros and ESO employs around 730 staff members. By building and operating a suite of the world’s most powerful ground-based astronomical telescopes enabling important scientific discoveries, ESO offers numerous possibilities for technology spin-off and transfer, together with high technology contract opportunities and is a dramatic showcase for European industry.

Whilst the Headquarters (comprising the scientific, technical and administrative centre of the organisation) are located in Garching near Munich, Germany, ESO operates, in addition to the Santiago Centre, three unique observing sites in Chile: La Silla, Paranal and Chajnantor.

h/t John Aravosis at AMERICAblog

Pique the Geek 20111218: The Science of NCIS

The popular TeeVee show NCIS purports to use science to solve most of the difficult bits of its cases, almost always murders.  Since this is about a TeeVee show, I was torn betwixt posting this piece here or on Popular Culture, but chose here because it will get a little geeky.

Before I continue, let me tell you that I like the program very much, not so much for the science but for excellent script writing and character development.  I think that it is important to recognize a well crafted program.  Since most viewers are not technically proficient, the science is not a problem for them.

But it is for me.  I am reminded of another popular TeeVee show from years, the Jack Klugman one called Quincy, M. E., that relied heavily on fictionalized scientific methods.  I had a boss at one time who coined a phrase that I shall reveal later.

Pique the Geek 20111211: Would I Lye To You?

Sodium hydroxide, aka lye, is one of the most important basic chemicals used in industry, and until not too long ago, for several home uses.  It can still be found in a few consumer products, but because of its usefulness as a chemical reagent for clandestine preparation of methamphetamine, is hard to get now without a legitimate business reason.  However, I found some at Lowe’s a couple of years ago (under a different label) for opening drains.  I wanted some to show my relatives how to make soap.

A significant amount of this material is still used for making soap, but its uses are so widespread and pervasive that soapmaking is just a small fraction of the applications for this material.  Industrially it is used when a strong, cheap base is needed, because it is amongst the strongest and cheapest, other than perhaps calcium hydroxide (lime), but sodium hydroxide is very soluble in water where calcium hydroxide is not.

Pique the Geek 20111127: Chemical Bonds and Electronegativity

The way that atoms bond together to form molecules has been a question asked since scientists came to the consensus that atoms do indeed exist.  Work progressed rapidly after the turn of the 20th century from both theoretical and experimental breakthroughs.  To keep the discussion easy to visualize, we shall consider only diatomic molecules, but the concepts are good for any number of atoms.  One of the great advances was the development of the idea that chemical bonds can either be covalent, where each atom shares bonding electrons equally, or ionic, where one atom donates an electron to another atom entirely.

Actually, pure ionic bonds do not exist because all bonds have at least a little bit of covalent character.  Pure covalent bonds are common, common examples being the nitrogen and oxygen of the atmosphere.  There is a very cool way to predict where a particular bond falls in the covalent to ionic spectrum, and that is to use electronegativity values.

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