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6 Facts About the 2017 Solar Eclipse
A magnificent astronomical affair is fast approaching. The total solar eclipse occurring on August 21, 2017 is expected to provide North Americans with a front row seat, to watch as the moon blocks the sun’s rays from the Earth, encasing parts of the continent in a blanket of total darkness. It’s been nearly 40 years since this phenomena was experienced in the United States.
Here are some key facts to enlighten you on what’s happening in August 2017, and how to best witness the event.
- Only Certain Points Will Reach Total Darkness
The prospect of being enveloped in nighttime darkness during the day may seem spooky or fascinating, depending on who you ask. What you should know, though, is that while some parts of the U.S. will reach total darkness, many more will still experience partial light.
That’s because the solar eclipse follows a path over the United States, crossing the country in a 73-mile wide diagonal band. While that arch covers the entire U.S., only the areas sitting directly beneath this path will experience total darkness. This is called the Path of Totality.
Madras, Oregon is likely to be one of the best places to watch this year’s events unfold. For a full west-to-east rundown of where to watch the total solar eclipse in the U.S., we’ve compiled this helpful list.
- Total Darkness Will Last Over 2 Minutes
That is, if you’re lucky enough to be observing the total solar eclipse in Madras, OR. According to charts for the 2017 eclipse, Madras, OR is expected to experience a period of totality clocking in at 2 minutes and 2 seconds.
- Solar Eclipses Happen Frequently
While a total solar eclipse is rare, solar eclipses in general are actually quite common. The Earth, moon, and sun align twice a year, leading to annular or partial solar eclipses.
Annular solar eclipses occur when the moon blocks almost all of the sun, but there’s still a ring of light present around the rim. Partial solar eclipses occur when the moon is only partially blocking the sun, creating a small notch of darkness over the fiery orb. Americans not on the direct solar eclipse path in 2017 will see a partial eclipse — while it won’t leave you in pitch blackness, it’s still an incredible sight to behold.
- Totality Is Safe for the Eyes
Those with space enthusiast parents may recall childhood days watching partial solar eclipses move across cardboard cut-outs, or through solar filters. We use these devices to protect our eyes’ retinas from infrared radiation, UV light, and excessive blue light.
Unlike their partial counterparts, total solar eclipses are actually safe to watch directly, even through binoculars. This time period of safe viewing is short, though — eye safety precautions must be taken in periods leading up to, and immediately after the total solar eclipse.
- You’ll Have to Leave the City to See It
The majority of areas on this year’s solar eclipse path are not major cities. Most of the “prime viewing” locations are small American towns, such as Madras, OR. So, for those expecting to set out their lawn chairs in a big city or suburb, you may want to consider a road trip out of town instead.
The one exception is Nashville. Nashville is the only major city along the total solar eclipse route.
Other than Nashville, other capital cities that will have a good partial view are Portland, Oregon (99% totality), Atlanta (97% totality), and Seattle (92% totality).
- The Next Total Eclipse Won’t Happen Until 2024
Total solar eclipses do happen every few years, however, the audience witnessing these phenomena varies dramatically, based on the date and the rotation of the Earth. For example, in 2016 parts of Southeast Asia experienced a total solar eclipse, and in 2019, South Americans will bear witness to one.
Eleven of the U.S. states are lucky enough to sit directly in the path of the 2017 event. But after this one, continental North America won’t experience a total solar eclipse until 2024 — so make sure you’re prepared on August 21, 2017
7. What is a Total Eclipse?
Solar eclipses can only happen during the new phase of the Moon, when the Moon lines up between Earth and the Sun. If the three bodies are not quite aligned correctly, then the Moon may block part of the Sun in what is called a partial solar eclipse; if the three are perfectly aligned, then the Moon can completely cover the Sun, creating a total solar eclipse.
July 11, 2010 Eclipse Image. Credits: Williams College Eclipse Expedition – Jay M. Pasachoff, Muzhou Lu, and Craig Malamut