History

Time

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Time is an interesting concept, and it is very human.  There is the physical idea of time, one that scientists provide a measure, the second, and record time in established intervals.  The second is defined as the duration of exactly 9,192, 631, 770 cycles (or periods) of the microwave radiation of a specific energy transition in a cesium-133 atom. This is a precise atomic standard, and we see these seconds tick by in our analog and digital clocks.  But, for most of us (unless we are doing scientific measurements), time is a bit more ethereal, cultural, and subjective.

Take for the basic idea of what day it is?  You might get an answer related to the day of the week, such as Monday or Friday.  Or you might get our world standard, the day’s date (I am writing this on January 2, 2026).  But, you might get another answer depending upon the specific calendar you are using, common ones include the Julian, Hebrew, Islamic, and Chinese.  Some are based on solar observations, some lunar observations. Do a quick internet search, asking the question about the number of calendars in common use, and you will get around 40 different calendars, with the six to ten being considered major calendars.  Each calendar has a particular cultural or religious use.

Before getting a bit philosophical, let’s look at our common calendar, the International Calendar.  This calendar is based on the Georgian Calendar. It was not widely accepted until after 1752 when Britain and the British Colonies accepted the correction to the Julian Calendar. This calendar is named for Pope Gregory XIII, who proclaimed its use in 1582.  Astronomers still use the Julian Calendar. The Julian Calendar is based on the one adopted by Julius Caesar in approximately 46 BC with a few corrections and finalized in 8 CE.  The Georgian Calendar is a slight correction to the Julian Calendar in how it manages leap years.  The average length of the Georgian year is 365.2425 days as measured from equinox to equinox, i.e. a solar tropical year.  Using this calendar the error is only 1 day every 3300 years as compared to the Julian Calendar which accumulates an error of 1 day in every 128 years.  (The advantage of the Julian Calendar to astronomers is that all of the known astronomical observations have positive Julian dates, making the math easier.)

And, as noted before, there is still some debate as to the “proper” calendar.  Even our idea of the second and the synchronization of time is actually relatively new.  Historically for most communities, time was a local issue.  As commerce expanded, time and location became linked in what was known as the longitude problem, i.e. where was a ship located east or west of a given line.  The problem was solved by using sophisticated mechanical clocks measured against a reference. Hence, the establishment of Greenwich Mean Time or the GMT, and the basis for internal establishment of Universal Time (UTC) or Zulu Time.  The longitude problem was officially solved, as recognized by the awarding of a prize by the British Government, in 1773.  Yet, standardization of time was still at least a century away.

What finally made it an imperative to establish a standard time and time zones?  The advent of the railroads.  At noon on November 18, 1883, the U.S. and Canadian Railroads adopted what was then called the General Time Convention, which later became the known as “Railroad and Telegraph Time.”  The General Time Convention used the meridians (longitude) to establish time zones.  The Naval Observatory was responsible for providing the noon signal which allowed the railroads and telegraphs to synchronize the clocks based upon the convention established.  This occurred prior to formal establishment of GMT being the international standard at zero longitude.  The international agreement to establish UTC came in 1884. 

But, then there is our philosophical and personal perception of time.  We have all had that feeling that time is dragging, usually when we are “watching the clock” or impatiently waiting for something or someone.  Then there is the sensation that time has flown by, you are in the zone and are working on something and you look up and see that an hour or two has passed.  We also experience this when reflecting on the calendar, just how fast did 2025 fly by?  Or the past 3 years?  Each of us has our own perception, and those perceptions can be influenced by events and expectations.  This perception is the stuff of poets.

For now, let’s just marvel at the fact that we can monitor time in a precise way to help us understand our physical world, as well as monitor it in a way that allows us to engage with others.  Our calendars are precious things (on a personal and cultural level).  We use them to plan, as well as to reflect.  We use them as guides, as well as measurements of milestones.  Particular days have meaning, and some are just a box.  The key is that time is now, this present moment.  It can’t be stored or saved; it just is.

Success vs Failure

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Most of us have at least one or to stories about great failures or unrecognized genius. Common names that come to mind are Ford, Macy, Honda, Disney, Gates, Einstein, Goddard, Schultz, and Seuss Giesel. These individuals have become part of the common lore. Success doesn’t always come in a conventional way. These individuals had what at the time were perceived as radical ideas and were told it wouldn’t work or there was no market, or that they were …. You fill in the blank. While these individuals have been inspirations for current generations – who came before? What ideas were presented as success after failures??

Turns out that history has quite a few examples of success after abject failure or what may have been perceived as failures. And, with these the mix of huge successes seemly out of nowhere. Take for example, the development of electricity and ultimately electromagnetic theory and quantum mechanics. There is a wonderful website that outlines a brief timeline of history. This timeline isn’t just about the observations, discoveries, and inventions as they relate to electricity – but it also conveys the foibles of individuals, the narrow view of the world, egos, money, and ultimately a history of society through the development of something that most don’t even think about anymore.

If you live in the United States – you probably think that electricity was a discovery of Benjamin Franklin. It is not the case, he was just continuing a tradition of scientific inquiry; but he is responsible for the selection of the direction of current (turns out he picked wrong, but we carry on with this assumption to this day). The scientific inquiry started with the Greeks or at least that is Western view. Because of the lack of documentation – who knows what was happening in Eastern Cultures or in Persia?

For those of you interested, the traditional view of electricity shows that Bradley, Gray, du Fray and others made observations of “static” electricity and in 1745, two years before Benjamin Franklin, Leyden Jars were invented. A Leyden Jar is a device that “stores” static electricity, a type of capacitor.

The story continues mixed with heated debates, creation of new languages, the language of science mathematics, and competitions. Laplace, Lagrange, and Gauss are all working toward explaining observed phenomena, but today are better known as mathematicians than scientists. (Of course, during this period they weren’t scientists either, but Natural Philosophers.) And, electricity wasn’t even the really big topic of the time, it was light and optics. The electrical observations were asides, interesting phenomena.

The 1840’s and 50’s appear to have been a hot bed of debate in science. You have Lord Kelvin (William Thompson), Henry, Faraday, Doppler, Helmholtz, and Kirchoff all working to explain various phenomena. New ideas about the nature of light – is it the same or different than sound? And, a couple of very radical ideas emerge – heat is a form of energy, and energy is conserved. These are two key ideas in the understanding of how the universe works. These ideas are so radical that the esteemed publication of the time Annalen der Physik rejects them for publication (Mayer in 1842 and Helmholtz in 1847). Yet, today these ideas are fundamental to physics and chemistry. They are fundamental to the development of much of our everyday life: the power we use to get us from point A to point B, devices we turn on with a flip of a switch, and allow us to travel to the edge of the solar system and land on comets. Yet, the ideas were initially rejected as “too speculative.”

These were the role models for Maxwell (mathematician/physicist), Planck, and Einstein. Which of course are the role models for Fermi, Feynman, Bohr, Rutherford, Oppenheimer, and the list goes on.

The history of electricity – is our history, It shows the development of us as a society. It has its ups and downs. Its disputes. Its family feuds. Its “I’ll prove you wrong”. And, ultimately our acknowledgements of who has the last say (at least for now). The question now is – what is that fundamental concept that has already been presented – that has been discounted by the knowledgeable establishment?

Remembering and honoring

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On the eleventh hour, of the eleventh day of the eleventh month – World War I came to an end.  This day is celebrated today as Veteran’s day in the United States.  A Monday in November is set aside as a federal holiday to allow communities to honor those who have served and those who serve.

As homeschool families, this day provides an opportunity to integrate our various curriculum activities with what is happening in the community.  There is an opportunity to explore history, and conduct interviews with individuals who witnessed events first hand.  There is an opportunity to participate in community activities such as parades, concerts, flag raising and lowering ceremonies, and visiting cemeteries.

While we think primarily of history, writing, poetry, and literature for activities related to Veteran’s day – there are some science related topics that can be incorporated as well.

Weather influences history – a wind sock (you can find several craft ideas for making a wind sock) may be an excellent way to show a bit of patriotism as well as incorporating how weather may impact world events.

Technology – while it may have been developed for defense – there are a number of peace time applications of various technologies.  Infrared detection is a great example.  The infrared cameras can see flaws in metals, and help detect with early detection of equipment failures.  Medicine and medical treatments have been influenced by events on the battlefield.  Even how goods are transported to your local big box store – is the result of solving a problem during the Berlin Airlift.

Science can be reflected in a number of ways as you celebrate this holiday.  You can see it right in front of you in the form of medical devices, architecture, and the overall health of some of those participating in the parade.  Just take a quick second to recognize it.

But, don’t forget to thank that veteran for his/her service.  It is their dedication to our values that allow us to have the freedoms we hold dear.