Anyone want to know what the 2017 Eclipse will look like at your location with nice graphics and all? Check out this excellent simulator put together by NASA’s Jet Propulsion Laboratory. You’ll be able to animate the eclipse for any given location in the US from beginning to end and find out what to expect. I made a collection of some of the locations which will experience partial eclipses (all at their time of maximum eclipse). All these location were in areas of 75% or greater obscuration of the solar disk. Optical and atmospheric effects begin to take hold with 75% obscuration as incoming shortwave radiation from the sun is significantly reduced. Read more about that in my previous July post HERE if you haven’t already. Remember, however, that even with 99% obscuration, the sun will still be too bright and therefore too dangerous too look at directly without certified eclipse glasses. Direct viewing of the sun for multiple minutes can blind you, any amount can cause eye injury!
The Great North American Eclipse is almost here! On Monday, the Moon’s inner shadow or umbra will touchdown over the open Pacific Ocean and rush toward a landfall in Oregon after 10:15 am PDT and exit the South Carolina Coast after 2:50 pm EDT. The shadow will be advancing across at around 1500-2000 mph. An incredible speed.
With the eclipse on Monday, the biggest concern is the weather…specifically sky conditions. The National Service, out of national interest in the eclipse (which will ONLY be seen in the United States) now has forecasts available, with special interest in sky condition forecasts.
Much of the eclipse path is *decent* (50% or less sky coverage forecast), although clear skies are extremely ideal. The best skies for totality are expected to be over the Northwest sector of the US, with greater cloud coverage (near 50% over the Central Plains/Missouri). There will be some improvement over Tennessee, but possible afternoon showers and thunderstorms may cloud up skies more significantly over extreme northeast Georgia and into South Carolina.
With that said…just remember…1) There’s more to the eclipse but totality! Regardless of whether you’re in the path or not, dealing with scattered clouds or not, enjoy the eclipse! Watch the crescents form in the shadows of trees, make a pinhole viewer (like this or this for example…I’m planning on making one!), if you have certified eclipse glasses or shades…safely observe the sun directly, and if you’re in a very deep partial (75%+) enjoy the effects of the weakening sun on temperature, sky and the animals. Also…2) For those in totality, all you need is that precious 1 or 2+ mins to be clear around the eclipsed sun. Hopefully, with that 50% or less sky coverage, that will be easier to achieve.
As you all may know, I live in Lincoln, NE…in the path of totality. As the city is literally on the northern edge of the shadow, there is a tight gradient for the length of totality; anywhere from tens of seconds on the north end of town, to 1 min 45 seconds on the south end of town. My house will see around 1 min 15 seconds. We had planned on going to Grand Island, NE about a hour and a half west of here to visit a relative of hers and see the eclipse at 2 min 35 sec (near max possible duration)…but our car has an issue which makes it not reliable for traveling on the highway! 😦 Literally found this out today! Extremely disappointed as there isn’t enough time for us to get the car fixed. But considering we’re still IN totality vs. not, I can’t completely complain. So instead, we’ll be heading to the south end for the maximum length in Lincoln. I’ll have my GoPro set up on a mini-tripod to capture very high-res video of the last minutes before totality and during it. My fiance and I will also take lots of photographs. I will have updates on my Twitter and FB pages as the partial eclipse advances toward totality (feeds also can be seen from the website…but please follow me directly! 🙂 ).
It should be an exciting day! Everyone have safe viewing and have fun!
It was VERY smoky in the Northwest Wednesday unfortunately because of major fires in the Interior US and Canada.
BELOW were the highs Wednesday for select cities. Southwest WA and Western OR are being particularly hit hard by this heat wave. Interior Western WA and Puget Sound were actually sparred some of the worst of the heat today by the smoke; it was thick enough to act as a cloud to dampen the radiation and limit warming in places such as Seattle. It remains to be seen if that will be the case Thursday. If not, the hottest day if the heat may very well be Thursday for Western WA (and about the same for Western OR). This, along with an Air Quality Alert in effect for much of Western WA/OR means those in the area will need to not only be careful with strenuous activity to avoid heat-related illnesses, but also avoid breathing problems, if sensitive to such smoke particulates.
(record highs in red)
Seattle (National Weather Service Office): 88
Seattle (International Airport): 91 – Old Record 89 (2009). Special Note: Seattle also shattered its daily record for warmest minimum temperature with a morning low of 69 (old record was 61 set back in 2015) and it ranks as the 2nd warmest daily minimum temperature on record.
Hoquiam: 89 – Old Record 81 (1993)
Quillayute (North WA Coast): 98 – Old Record 89 (1993). Special Note: This was likely caused by easterly downslope winds; easterly surface winds flowing along the higher hilly terrain descends down the slopes resulting in “adiabatic heating” (compression heating from increasing pressure on the air molecules as the flow drops in elevation). This hot air blows into town and shoots the temperature up fast. This process occurs throughout the region and is the reason why it is typically a “dry heat” in Western WA/OR during heat waves. The heated air becomes dry, with little moisture added to it.
Astoria: 93 – Old Record 88 (1939)
Portland (International Airport): 103 – Old Record 96 (1986)
Troutdale (East Portland Metro): 105 – Old Record 99 (1995)
Hillsboro: 105 – Old Record 99 (1939)
Salem: 107 – Old Record 102 (1939)
Eugene: 102 – Old Record 99 (1939)
Medford: 112 – Old Record 105 (1993)
Klamath Falls: 99 – Old Record 94 (1977)
As you see, for Oregon, there was a major theme in the records for Wednesday’s climate stations. It was the hottest day many of these locations had seen on this date since 1939.
Please be safe if you live in this region the next couple of days. Drink PLENTY of water, take breaks from the heat as necessary, use fans if you don’t have air conditioning (common problem in this region, I lived there without air conditioning and the summers statistically are generally getting warmer because of anthropogenic climate change…), and again, like me, I have asthma; if you don’t need to do anything strenuous outside DON’T! Just drive instead of walk or just stay inside, cool and relax. The slightly cooler weather (still above normal, however) starts Friday.
If you live in Western Washington and like roasting near 100 degree temperatures, you are and will be getting your wish the next 72 hrs. As powerful upper-atmospheric ridge of high pressure is establishing itself over the West Coast of the US, the combination of clear skies and subsiding (downward moving as opposed to upward rising) air under this high pressure system – subsiding air warms as it sinks – is leading to incredible heat over the interior areas of Western WA/OR and Northern CA.
Extreme heat warnings have been issued for virtually ALL OF Washington State, Western Oregon, and much of Northern California.
Shown below are the average high temperatures for today (August 1st) for selected cities in Western WA/OR followed by forecast highs for today-Thurs or Fri. The forecast highs in red are highs which would break the record high for that day.
Tues, August 1st Average High Temperature: 77
Forecast Highs (Tues-Fri): 87, 94, 98, 95
Olympia, WA (state capitol)-
Tues, August 1st Average High Temperature: 79
Forecast Highs (Tues-Fri): 92, 98, 103, 95
Tues, August 1st Average High Temperature: 82
Forecast High (Tues-Thurs): 99, 105, 105 (All-time record high is 107 from 1965/1981)
Salem, OR (state Capitol)-
Tues, August 1st Average High Temperature: 84
Forecast High (Tues-Thurs): 99, 106, 105 (All-time record high is 108 from ’27, ’41, ’81)
According to the 5 pm PDT observation, Salem has reached 100 degrees, exceeding their forecast temp and tying the daily record of 100 degrees for today.
Tues, August 1st Average High Temperature: 84
Forecast High (Tues-Thurs): 99, 106, 103 (All-time record high is 108 from ’81)
Medford, OR- (edited at 10:40 pm CDT Tuesday to add this city)
Tues, August 1st Average High Temperature: 93
Forecast High (Tues-Thurs): 108, 114, 111 (All-time record high is 115 from ’46)
It’s very possible that for a portion of the Willamette Valley, especially the Central Willamette Valley, Wednesday could be one of the most intense heat days on record!
The worst of the heat for Western WA and Western OR is expected to end after Friday more seasonable to reasonable above normal temperatures this weekend.
One of the most significant impacts of human-induced Global Climate Change are the impact on heat waves. As the average temperature of Earth warms, many local temperature patterns are shifting toward temperatures which are “hot” to “extremely hot” relative to average temperatures in the mid-20th century (typically defined by their standard deviation from the mean temperature for the local area).
This shift has had implications for impacts on everything from drought to human health such as heat-related illness and vector-borne illnesses. It will continue to do so as carbon dioxide levels continue to climb. The levels of carbon dioxide in the atmosphere reached a record in observed human history of ~410 parts per million in May of this year, the highest level in at least several million years (and humanity is pumping it into the atmosphere at a rate unseen in the past 65 million years).
At this time, global warming has reached approximately 1 degree C (nearly 2 degrees F) since the early modern Industrial Era (the 1880s). It is statistically known that heat waves, droughts and also heavy precipitation events (because of additional moisture added to a warmer atmosphere) are being impacted directly by climate change.
We’re now less than four weeks away from the historic total solar eclipse of August 21, 2017! This will be the first total solar eclipse in the contiguous United States since February 1979 when a total eclipse swept through northern Oregon, southern Washington, into Idaho, Montana and the Canadian Prairies. Much of the Northwest dealt with clouds in the coastal and western regions as cities such as Portland fell into a post-sunrise darkness.
Well now it’s 2017 and this eclipse is in a much better month…August. While this doesn’t guarantee good weather for any location along the path of totality; convection (thunderstorms) and cloud debris can cause issues on the Plains, while marine clouds can cause problems in the Pacific Northwest for example, generally quieter conditions with the jet stream and the domination of summer time high pressure and upper-air subsidence across the continent during the late summer means more opportunity for less cloud cover and quieter conditions across more parts of the country to view the eclipse in August than, say February.
In order to assess the the most important aspect of observing an eclipse – sky conditions – the University of Idaho School of Natural Resources performed a climate analysis for the United States to determine the probability that a location will have clear skies at 10:30 am local time on August 21st. This time is picked because of the arrival of totality on the West Coast.
While clear skies would be absolutely optimal for an eclipse, ESPECIALLY totality, few to scattered cloud coverage (25-50%), while less fortunate in terms of direct solar photography and SAFE solar viewing, can still yield interesting observations leading up to and during totality. Because the umbra is quite thin, interesting atmospheric optics can occur. Although the area under totality becomes relatively dark, the light outside of the shadow can still be seen to observers. And the reflected light will appear to be twilight-like in color and glow. You could call it “eclipse twilight”. And with any cloud in the area, they will change colors or change in reflection of light as the darkness rolls over them, great for photographic and video effect. Just before totality, the sun itself will start to appear as if it’s “dying” in the final minute or two and the shadow will start to rapidly advance out of the western sky like a monster storm…except it’s not a storm 😀
In addition, regardless of scattered or no clouds, in the last min or so before (and after) totality, if you look at plain surfaces you may witness wavy motions like those in water known as shadow bands. These form as the focused, but rapidly weakening light of the sun is being distorted by the dense atmosphere of Earth. Those very near the totality path may also witness them.
This YouTube video I found some weeks ago shows both the prominent shadow bands and the “eclipse twilight” with clouds.
Now I’m a meteorologist. So when we talk about having a giant astronomical object blasting a shadow across a continent at 2000 mph and putting regions into nighttime in the middle of the day, a meteorologist is going to ask, how is this going to impact the weather?
For those at 75% percent partial eclipse and higher, the surface temperature will start to become depressed temporarily as the incoming solar radiation is reduced. This will be especially apparent for eclipses during the midday. As totality approaches, any winds may calm as a result of “fair weather convection” weakening as surface heating completely shuts down (this is where upward vertical motions produced by surface heating, leading to local winds die down).
Here’s an EXCELLENT website using a Google Map layout where you can click on a location for eclipse “contact” times (start of partial, start and end of totality, end of partial) and maximum obscuration of the solar disk (areal coverage by the moon): HERE
In a couple weeks, numerical models will START to give us some distant idea of how the weather patterns may evolve for August 21st. I’m especially interested, because my location (Lincoln, NE) WILL experience totality. Will likely head to the south side of town to experience roughly 1 min 45 seconds of it and some of the very partial eclipse before that. It would be my first total solar eclipse since I was born and raised in Seattle but that event didn’t happen there and happened 5 yrs before I was born anyways.
Stay tuned in the coming weeks as weather updates come!