Time

Posted by sophicpursuits

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.

Preparing for the Solar Eclipse

Posted by sophicpursuits

On Monday, August 21, 2017, the United States is in for a celestial treat! The Moon is going to pass between the Sun and the Earth. For part of the United States along the Path of Totality, the Moon will completely block the Sun for about two minutes and 40 seconds although the Moon will be partially blocking the sun for a much longer period. Find the time and duration for your city at https://www.timeanddate.com/eclipse/in/@4548267.

The Path of Totality is approximately 70 miles wide and is going to be a path that includes parts of Oregon, Idaho, Wyoming, Montana, Nebraska, Missouri, Illinois, Kentucky, Tennessee, Georgia, North Carolina, and South Carolina. Because the Earth rotates about an axis, the exact timing of totality for any given city or location is going to be different. Lincoln Beach, Oregon will be the first to experience totality at 10:16 am PDT and Charleston, South Carolina will be the last to experience totality at approximately 2:48 pm EDT.

The last total solar eclipse viewable from the contiguous U.S. was in 1979. Solar eclipses occur on average once every 18 months. But, because of the shape Moon’s orbit about the Earth, the Moon’s position relative to the Sun and the Earth changes, affecting the specific location and duration of the solar eclipse. Because they do not occur in the same location, a solar eclipse seems like a rare event, and for specific locations like Dallas, Texas it may be 400 years between total solar eclipses. (The next scheduled total eclipse viewable from Dallas will be predicted to be April 8, 2024, and the last one was Oct. 23, 1623.) While conversely, Denver, Colorado had a total eclipse on July 29, 1878, and will see another one on Aug. 12, 2045, which is only 167 years apart.

What will you see? First, DO NOT LOOK DIRECTLY INTO THE SUN, as the Sun’s intensity can damage the eye. But, there are many other ways to watch the event. Special viewing glasses are available at viewing events or ordering them online. These glasses are designed to filter out the harmful rays to allow for safe viewing. There are indirect ways to view the event as well. (Here is a link to the NASA Safety webpage https://eclipse2017.nasa.gov/safety)

You can build a solar viewer, which is essentially a pinhole projector. This can be done by using a piece of paper, cardboard or cardstock. Make a tiny hole with a needle, straight pin, or thumb tack. The hole should be round and smooth. With your back towards the Sun, hold the piece of paper with the hole and project the image of the Sun onto another sheet of paper or concert (this is your screen). The size of the image will be dependent upon the distance between the paper and your screen. (https://www.timeanddate.com/eclipse/make-pinhole-projector.html) Caught without a piece of paper? The leaves of a tree can act as your pinhole view as well as use laced fingers. Using fingers or leaves, you are likely to get multiple images of the event. You can build a pinhole camera viewer as well, see https://www.livescience.com/59721-solar-eclipse-viewer-photo-tutorial.html?utm_source=notification. With the viewer, you may be able to film the event with your phone camera. The key here is to watch the event safely.

Want more details about the eclipse? You can go to NASA’s eclipse website: https://eclipse2017.nasa.gov/eclipse-who-what-where-when-and-how. It has links to maps and other information about this upcoming event.

NOTE: A version of this post will appear in the Midweek of the Ponca City News on August 9, 2017.

Happy New Year – Return to Normal?

Posted by sophicpursuits

All of us have this definition of normal. With the holidays completed, there is this sense that we are going to return to normal. But, what is that? Really, what we are saying is that we are returning to that ordinary state of routine. For families with children, this means that we are returning to a school routine.

January is also a time when we reassess our school year goals and set some new goals as well. So, what are your goals for the remainder of winter and into spring? Have you though about adding some science activities? January is actually a great time to look at your science curriculum.

The homeschooling catalogs will be coming out soon. So, it is a great time to start thinking. But, there are other resources that come out during January. Here are some good ones to start your creative juices flowing:

Astronomy

Sky and Telescope has come out with their 2015 Observing Calendars and Information. There are other sites as well – the Sea and Sky has their Celestial Events Calendar out as well as Stargazing Tonight.

Science Fairs

It is time to think about those science fair projects (if you haven’t already started). The International Science and Engineering Fair is in May – and students are required to participate in qualifying fairs. You can find information about affiliated science fairs here. Many local fairs are in February – so if you haven’t found your dates – it is time to look.

Global Science Events

Every year there are a number of scientific and medical meetings held around the world. And while, they may not be directed toward you and your family personally, many of these meetings have auxiliary events. For example, the American Chemical Society which will be meeting in Denver in March and in Boston in August usually supports a science activity for families and school children as part of their meeting. Thus, looking to see if one of these events is coming to your area may inspire an activity or a lesson plan. You can find one listing of Science Events here.

Weather and Climate

In addition to astronomy, there is also sky watching as related to weather, clouds, climate, etc. Winter is a great time to look for the Aurora Borealis – you can find the forecast for viewing here. Of course there are a number of sites that follow weather – there is the NOAA.gov and Weather.com. These should provide you with lots of activities.

Check out the Calendar

Earth Science Week – has extended their celebration to the entire year. National Engineering Week is February 22-28, 2015 and information can be found here. Earth Day is April 22 and many professional societies have activities planned. Pi Day is March 14 and this year is special because of the year. (You might also search STEM activities – UCF is holding a STEM Day on Jan. 30, 2015, and STEM Saturdays are being held at Northern Illinois University. There are a host of other Colleges and Universities that are doing STEM outreach – so checking your local community college, or other higher learning institution may also provide you with inspiration.)

Finally, watch the museum and library calendars you never know what might turn up there.