Coachella lineup/yellow football line explained
January 30, 2009
I’ve always wondered exactly how they create the yellow 1st down line in football TV coverage. It’s something I always think about while I’m watching a game, but never dig into later. Well, the wonderful kottke.org comes through again with a link to this fascinating explanation. I always knew it had something to with a chroma-key effect, so that it only shows up on the green grass as if it’s actually under the players. What I never could understand though, is how they keep the angle correct as the camera pans, zooms, etc….
This year’s Coachella lineup has been announced, and it’s pretty awesome. I actually really wish I could go this year. But with SXSW, the possibility of covering Bonnaroo again, and another summer trip with Megan, it ain’t gonna happen. Interestingly, it’s Paul McCartney’s 1st festival appearance in the US. Via Pitchfork. Still waiting to see if the big rumor about Phish playing Bonnaroo is true.
If you know me, you know that I absolutely LOVE LOVE LOVE LOVE Camera Obscura. You’ve probably heard me get all giddy about the time I saw them in Athens at the 40-Watt and got to meet Tracyanne Campbell (and buy her a drink!). Well, they have a new album coming out soon, and they’re playing SXSW. Of course, since I probably won’t have a badge when I go, I probably won’t get to see them, but who knows what will happen? I’m just really really happy that they worked with the same producer as their last record Let’s Get Out of this Country, Jari Haapalainen. He did wonders with that album, and matched just the right amount of lush production to their style. I’m really anxious to hear what he’s done with them on the new one. I’m also really anxious to see their US tour schedule. I have no clue if they’ll flesh out a bunch more dates around their SXSW appearance and the lone other US date on their current calendar- Mar 24th at the Bell House in Brooklyn. I don’t see why they wouldn’t.
It looks as though Mount Redoubt in Alaska is about to blow its top. The last major eruption for the active volcano was in 1989, and scientists says this eruption could be about the same or a little less intense than the last one. Luckily it’s not close to any heavily populated areas, and the small towns close enough to recieve some of the ash will just have to deal with it, but it shouldn’t cause any huge problems.
Not much to report on this looming winter storm coming monday and tuesday. The weather service hasn’t changed its forecast much, but I can see that the latest model runs show a slightly weaker storm than before, but there’s still a lot of time, and the models will probably change their minds several times. They just aren’t very reliable more than a day or two out, especially when dealing with these fickle winter systems.
Dirt is good for you/Metallica at SXSW?
January 29, 2009
Well, they played in Nashville at the Basement for their fan club, so why shouldn’t Metallica play another small show at Stubbs BBQ during SXSW? Rumor has it they will. I can’t imagine how painfully crowded that place will be. I’ve never been there, but it holds about 1500. So far my plans to go with Seth this year are holding up. We’ll probably never have a chance of getting into the Metallica show though, if it even happens.
The NY Times is reporting that dirt may actually be good for babies and children. I’ve been saying this for a long time now. Obsessive mothers who keep their babies and everything around them spotless and ultra-sanitized are actually making the child’s immune system weaker, and making him/her more prone to allergies. It’s a little hard to swallow the part about worms being healthy, but I totally believe it. As with everything, common sense rules here. If your toddler boy has been playing with dog turds… yes, I’d say wash his hands before he eats! But if he was just making mudpies, who cares? Via kottke.org.
This is scary to think about, but global warming may be irreversible. According to this Universe Today article, scientists have found that while methane, nitrous oxide, and other pollutants may go away in a few decades, the extra CO2 we’ve expelled into the atmosphere may stick around for a thousand years or more. Unfortunately CO2 is the biggest contributor to the greenhouse effect. I think this simply means that we have to find a way to make gigantic CO2 scrubbers that can actually remove some of the CO2 from the atmosphere. They already have them on the space station and space shuttles. I know- the costs of expanding that technology to a scale that would even make a dent in the overall CO2 levels of the atmosphere are probably unimaginable, but I say it’s worth it. The alternative could be mass famine and major world wars. Another possibility it just planting a shit-ton more trees, and greatly decrease logging to the point that we’re generating more forest than we’re destroying. Trees are the cheapest CO2 scrubbers around. Good luck with that idea though….
So for all you snow lovers out there, this coming monday/tuesday might be Nashville’s best chance at getting a significant snowfall. As always, it’s too early to say anything for sure, but the models are showing a low pressure system forming over LA/MS and tracking east-northeastward across GA, and then up the east coast, turning into a nor’easter. At the same time this low forms, an arctic airmass will be sliding southeastward from Canada. If the low tracks just right, strengthens and becomes “cutoff,” and if the arctic air slides down at the exact same time the moisture is being pulled around the northwest sector of the low, we’ll get a pretty significant snowfall. If the low tracks further north, then the warm gulf air will win-out and we’ll have mostly rain, and a little snow at the tail-end of the system, much like what happened yesterday. If the low stays further south, the moisture will stay south along with it, and we won’t get much precip at all. Stay tuned, this will be an interesting one to watch as the models get more accurate. Below is a graphic of the GFS model run showing precipitation, pressure (where the lows and highs are), and 850 Mb level temps. (That means temps at a few thousand feet up.) Temps are shown in Celsius here, and the key is that blue line that says “0,” meaning freezing line.
And now for a time-lapse video of a baby playing with his toys over 4 hours, condensed down to 2 minutes.
Winter weather in the south
December 12, 2008
So I’m sure if you’re from the Nashville area you know how ridiculous people around here can be when even a flurry of snow is mentioned in the weather forecast. If you’ve been paying much attention in the past couple of days, you’ll also know that Mississippi (yes, Mississippi!) got a pretty significant snowfall recently…. even 2-4 inches in some areas across central Miss. That’s absolutely unheard of in the south! If you know me, you’ll also know that I’m a weather nerd- I follow the forecasts and even chase storms when the opportunity arises. Often times I hear people talking about how crazy winter weather is in Nashville, and how we never get any snow (some people like it that way, some don’t), and how the forecast is never right. I thought this would be a good time to do a little post explaining a few things about why winter weather can be such a roller-coaster sometimes, and why it’s so difficult to accurately forecast winter weather in the south.
Basically, the location of TN, especially its latitude, causes it to always be influenced by air masses created in other areas. During the winter, the jet stream is essentially split into two branches, a southern branch that resides over northern Mexico and the Gulf, and the northern branch that resides over the northern US states and Canada. (Sometimes it can actually split into 3 branches, but for simplicity’s sake let’s leave it at 2.) TN’s latitude causes it to be right in the zone where those two branches can sometimes come together, and with them comes air masses created in their respective areas. The southern branch can sometimes bring northward a warm, moist airmass from the Gulf, and the northern branch can sometimes bring southward cold, dry airmasses created over Cananda. In order to have snow you have to have A) cold air- freezing or below- and B) moisture/clouds. Because of our location relative to the track of winter storms, we rarely ever see moisture and cold air at the same time. Most often we see the moisture in the form of rain as the system/front approaches, and then the cold air comes in after the system has passed, and taken the moisture away with it. I’ve made some diagrams to help illustrate what I’m talking about. To understand these you need to know a few basic things about weather- high pressure (blue H)=calm, clear weather and has clockwise circulation around it, and low pressure (red L)=cloudy, rainy/snowy weather and counter-clockwise circulation. The blue line with teeth is a cold front, which means that to the west (left) of it is a cold airmass advancing eastward. The red line with round humps is a warm front, which means that to the south of it is warm air advancing northward. In this first diagram I’ve made, you will see the typical scenario for a winter storm in the south. You can see that the rain is in the moist sector to the south and east of the low pressure system. The cold doesn’t make it to those areas because it’s being pulled down from the west of the system, behind the cold front. Because that cold air mass originated over land (Canada), it’s fairly dry, and if you’re to the south of the low, once the cold front passes the moisture is gone. It’s only in that northwest quadrant of the system that moisture gets pulled around and mixed with the cold air, creating snow. Most of these storm systems track a little too far north or south (this diagram has it going too north) and there either isn’t enough cold air in place over the northern plains, or the warm moist air simply rides up over the cold air (we’ll talk about that in a minute). Click on the image to show the full size diagram.
So what happens when the warm air is pulled up and then rides over the cold air? Ice. Normally this happens right along the warm front, in the northeast quadrant of the storm. The warm air is lighter and rises (we all learned that in elementary school) and creates a wedge. The precipitation starts as snow way up in the clouds, then melts when it gets to that layer of warmer air, then the rain drops re-freeze when they get closer to the ground where the colder air sits. This is called sleet. If the layer of colder air is really shallow, the rain may not freeze until it touches a surface. It will then freeze and form a glaze of ice on everything. This is called freezing rain. Another diagram to illustrate: (click to enlarge)
Finally, this last diagram will show you what the “ideal” scenario for a heavy snowfall event in Nashville/middle TN would look like. Unfortunately if you’re a snow-lover like me, this doesn’t happen very often because the low has to track in JUST the right place for it to happen. There also has to be a very strong, very cold airmass parked over the northern plains, waiting to plunge down to the southeast. The southern branch of the jetstream also must be very active and the low pressure must be very strong- strong enough that you have full 360 degree circulation (called a “closed low”). The exact track of the low makes all the difference. It has to track just to the southeast of us so that we are in that “sweet spot” of heavy snow just to the north and west of the low. The perfect Nashville snowstorm: (click to enlarge)
Essentially this is the great “Blizzard of ’93,” except its track is shifted slightly to the west of that storm. Ok, now that we’ve all had a full nerd-gasm, hopefully you now have a better understanding of why Nashville’s winter weather can be rather fickle and difficult to forecast. Back to the normal posting tomorrow.
steve cross loves music and science 