WUWT readers may recall this story from November 3rd NOAA deletes an “inconvenient” kids science web page where NOAA took down a web page called “It’s a gas, man” that talked about a tabletop science demonstration that kids could do themselves to “prove” that CO2 retains more heat. Problem was, the experiment as presented then was flawed, and when it received some attention from skeptical websites, NOAA recognized the flaw and took it down, replacing it later with an updated page.
Fast forward past Climategate to this past Thursday Dec 17th, and we find that the BBC decides to try essentially the same experiment on live TV for an impressed and non questioning audience.
Only one problem, the BBC presenters botched the experiment. Fortunately we can show why, because WUWT reader Professor Kevin Kilty of the University of Wyoming, who took an interest in recreating this experiment with students in his physics class well before the BBC did their experiment, has conclusively demonstrated its scientific shortcomings in an experiment log he sent me on December 20th showing results of a November 23rd experiment run.
What got me connecting what Professor Kilty had done to the BBC live TV experiment was a comment from WUWT reader Bryan C of the UK. Here’s an excerpt:
Dear Anthony
Here’s something I found shocking and that you don’t see every day: the British government’s former chief scientific adviser Professor Sir David King flagrantly lying on national television to boost the dubious idea that some foreign agency (the Russian secret service?) was behind Climategate.
http://news.bbc.co.uk/2/hi/programmes/newsnight/8418356.stm
This was in the context of BBC 2’s Newsnight staging a peculiar experiment, with a politically-correct black female “space scientist” heating two bottles – one containing “air” (last time I looked, that included carbon dioxide anyway) and one containing “atmospheric air with a greater concentration of carbon dioxide” (they didn’t say how much they were adding, of course, but I’d bet it was substantially more than 0.000388%!). Surprise, surprise — the latter bottle grew hotter… Of course it did. A greater amount of carbon dioxide will be warmer when heat is applied. This is not a surprise! The proportions are key, of course, as you know.
Newsnight itself characterised the effort right at the start as a “very unscientific experiment” — so why do it at all?! In fact the “science” as presented was misleading and selective to the point of deception.
Indeed when you watch the BBC video, it is clear that there’s no sort of control of any kind, the thermocouples were placed haphazardly at different angles into the bottles, and there’s likely alignment differences between the lights illuminating the bottles. It seems so from my viewing of the video.
Professor Kilty also viewed the BBC video and writes:
You can see that the two bottles start at temperatures of 32+ C. Perhaps the house is this warm, we don’t keep ours this warm, but more likely they have run the experiment and know pretty well in advance how it will turn out. I tried to see from the size of the spot on the bottle if one or other is obviously closer to the lamp–I can’t– but what really matters is the thermocouple, of course. The NOAA description in “its a gas, man” looks like the epitome of careful research in comparison.
This is just kid science. The BBC did their best. Not as good as the ten-year old of a couple of weeks ago, though. It is funny that the journalist sells this as “proof” of global warming early in the sequence.
Here is what a properly conducted experiment looks like, as performed under professor Kilty’s supervision by students at his lab at the University of Wyoming.
A SILLY EXPERIMENT ABOUT CO2
KEVIN KILTY
Date: December 20, 2009.
Are there endless silly or meaningless experiments and demonstrations that one can do with carbon dioxide (CO2)? We’ve seen a few on WUWT recently.1 On Tuesday November 3, 2009,WUWT exposed one endorsed by a major scientific organization under the headline NOAA deletes an inconvenient kids science web page.
Indeed, all reference to this page appears now gone at NOAA. But, thanks to the efforts of WUWT, and the help of the way-back machine,2 selected physics students in three of my courses at LCCC got to try the experiment as someone at NOAA designed it. As it turns out, this experiment is silly for what it attempted to show, but it provides darned good lessons about scientific experiments.
The first group of physics students to get a crack at greenhouse warming in a two liter bottle were from my Physics 1050 course – physics without math. They set the experiment up as closely to the NOAA specifications as possible and made Runs 1 and 2 as I describe below. The algebra based physics course got a stab at it next, then the calculus-based physics class had their try. These classes modified the experiment to get a better picture of what was going on. They performed Runs 3 and 4, respectively.
1. Procedure
The NOAA web-page suggested doing the experiment according to the following recipe.
(1) Partially fill both bottles with water. In fact, we filled each with the same amount of water – about two inches worth.
(2) Add the seltzer tablets to one of the bottles. We delayed this step until we had the apparatus assembled.
(3) Suspend the thermometers inside the bottles in such a way that you can measure the temperature of the air and seal the tops with molding clay. We thought there was little reason for sealing the top completely, so we used a cork stopper with hole large enough to allow gas generated in the bottle to pass out around the thermometer.
(4) Place the lamp at equal distance between each bottle. This is the tricky step in this seemingly simple experiment.
(5) After an hour, measure the temperature of the water in each bottle. We thought the word “water” was a mistake here because there was no instruction to make the amount of water in each bottle equal, nor any reason the water would be of interest when the thermometers were suspended in air. Accordingly we monitored the temperature of the air to equilibrium at least, which was less than an hour.
Despite the simplicity of the procedures, we encountered plenty of experiment design issues. These included:
1) the typical lab thermometers have fiducial marks at one-degree interval and so temperature can be read to a resolution of about 0.5◦C at best,3
2) the marks are actually not of uniform size,
3) it is really difficult to get a label completely off a two-liter soda bottle, and so there is a readily available shield or
reflector to confound one’s results. Finally, there is that deceptively simple step 4; Place the lamp at equal distance between each bottle.
Although a person can purchase clear light bulbs that allow one to see precisely where the filament is, and what geometry it has, there is almost no way to decide what is the exact center of radiation. After all 95% of the radiation leaving the lamp is infrared and invisible. From outside the lamp does radiation appear to come from the filament? Or does the bulb envelope appear as the source? Moreover, even if a person can decide where is the center of radiation, there are a host of other ways to get the set-up wrong. Figures 2 and 3 show some. Students rarely noticed if the thermometer was centered and vertical or if it stayed that way during the course of the experiment – and as one might expect to happen sometimes, thermometers in the CO2-filled bottle tipped toward the lamp, as Figure 3 shows, while those in the control bottle tipped away like Figure 2.
2. Results
The table below summarizes our research of November 23, 2009. The first experimental run, using ordinary lab thermometers, appeared to detect an increased temperature rise in the CO2-filled bottle. However, students failed to appreciate at this point that repeating this experiment, no matter how exactly, could arrive at a different outcome.
Indeed, Run 2, using six thermocouples read to a temperature resolution of only 1◦C indicated no average difference in temperature rise, but showed greatest temperature change in some bottles without CO2.
Run 3, using thermocouples read to better resolution of 0.1◦C, showed the greater average temperature rise to occur in the non-CO2 bottles. In this case students swapped thermocouples among bottles to make certain no variation was the result of mis-manufacturing of these sensors. We concluded from these results that sufficient replications of properly randomized runs would likely show no detectable difference at temperature resolution typical of equipment in K-14 science labs.
Run 4 made use of Moll-type thermopiles. These devices capture a very broad spectrum of radiation, from far IR through visible, and conveys it to a highly absorptive collector at the base of a conical reflector. A series connection of 17 type-K thermocouples indicates the temperature rise of the absorber. These thermopiles have a sensitivity of 0.28mV/μW; a voltage that good quality bench multimeters can read easily. Figure 4 shows one of these devices.
In these runs we organized a moll-type thermopile to look at the lamp through our plastic bottles. When the potential of the thermopile became stable we then dropped two selzer tablets in the bottle and monitored the decline in potential until it became stable again. In this manner we managed to avoid all confounding influences except variations in one plastic bottle to another, and possibly extremely small variations in aim of the thermopile. The average decline was 0.095mV .
This translates into a typical decline of 0.34 μW of radiation power entering the conical collector.
3. Discussion
The presence of CO2 in a plastic bottle reduced radiation collected by a thermopile looking through that bottle. But what radiation is reduced, and what causes the reduction? We are pretty sure that visible light isn’t reduced as there is no visible difference between bottles with CO2 and those without. Thus, the difference is likely in the infrared (IR) part of the spectrum. CO2, as we have heard interminably for the past 25 years, absorbs certain bands of IR radiation, most notably in the IR near 2, 3 and 4 micrometers wavelength, and in longwave bands between 13 to 17 micrometers wavelength. At thermal equilibrium CO2 will radiate in these same wavelength bands as much power as it absorbs. The radiated radiation does not travel in the same direction as the absorbed radiation was traveling, however. It is radiated uniformly in all directions. In the case of our experiment this leads to a small decrease in power reaching the Moll-type thermopile.
Applying this to the case of a simple Earth atmosphere, containing nothing but CO2 and having no weather, leads one to conclude that longwave radiation leaving the top of Earth’s atmosphere will decline in magnitude slightly. This decrease in longwave power traveling away from the surface forces the Earth’s surface temperature to rise slightly in order to maintain its thermal equilibrium. This is the “greenhouse effect” in its pure form.
4. Conclusions
When this experiment is set-up according to the prescription on the NOAA webpage it is quite possible to get a difference of temperature of 1 ◦C between or among thermometers even if none of them contain any CO2. A properly randomized experiment will likely result in no discernible difference among thermometer readings irrespective of CO2 in bottle or not. The issue is one of not enough magnitude of effect to resolve on typical lab thermometers.
An instrument as sensitive as a Moll-type thermopile can detect a small difference in radiation passing through bottles filled with CO2 as compared to an identical bottle not filled. The amount of IR power re- directed by a two-liter, CO2-filled bottle appears to be about 100μW/m2.
The most important result of this experiment is how it shows students so many issues of experiment design. First, there is the issue of how difficult temperature measurements are to make accurately. Students are quite surprised at this. They are equally surprised that seemingly identical temperature sensors will not measure identically. Second, there is also the difficulty of proving conclusively that A causes B when the experiment includes confounding factors. This is an important lesson about the value of skepticism in climate change research, observations, and publicity. If X, Y, and Z cause B just as readily as does A, then what allows one to claim A causes B?
NOTES
———————————-
1See for example: http://wattsupwiththat.com, 2009/11/18/, Climate Craziness of the week.
2The way-back machine still has a copy of this web-page at:
http://web.archive.org/web/20060129154229/http://www.srh.noaa.gov/srh/jetstream/atmos/ll gas.htm
3Actually it is possible to tell that the liquid in the thermometer is above half
way, but below the next fiducial mark. Thus, I suggested students could resolve
the least significant digit as .0, .2, .5, .8, respectively.
A complete report on this experiment from Professor Kilty in PDF form is available here
———————————
Back to the BBC video, Bryan C points out some problems with statements by Professor King, who joined the group after the CO2 bottle experiment was performed. Here is his comment, continued.
…
Professor King adroitly avoided key questions. Anyone there with any knowledge of the science could have taken him apart. The BBC clearly wasn’t interested in finding anyone equipped with the facts who could have countered the orthodoxy. In contrast, we had an ignoramus who expressed scepticism at the beginning saying he was now completely convinced. Others taking part who maintained their scepticism unfortunately didn’t have the facts at their fingertips to back up their positions.
Professor King’s assertions about Climategate (from 6:20) were particularly shocking. He conceded that the behaviour shown was unacceptable, but no conclusions were then drawn by him — the program simply moved on! But I was most stunned by his obfuscatory introduction of the conspiracy theory about “agencies” which went unchallenged, and involved a direct fabrication about mobile phone conversations.
“Remember that these emails go back to 1998 and they’ve been accumulating them and just released them in the week before Copenhagen…
“Let me also make this allegation for the first time in public. It’s an extraordinarily sophisticated piece of work to hack into all of these emails and mobile phone conversations, right? What agencies have got the sophistication to manage that? I leave you to think about that.”
Of course, the most likely scenario is not of an outside hacker but a whistleblower inside the CRU who pulled them together and released them. The suggestion of “an extraordinarily sophisticated piece of work” doesn’t really hold up if you’re just referring to emails, but introducing the idea of monitoring mobile phone conversations (a complete lie as far as I’m aware) serves to boost the conspiracy theory and muddy the waters. And this man was Britain’s most senior scientist?
I hope you can draw people’s attention to this deception!
Regards Bryan C
Clearly there has never been any mention of “mobile phone conversations” in any known discussion about the Climategate incident. This appears to be a complete fabrication by Professor King. It is troubling that the BBC has not corrected this.
All in all, this was not a well thought out or well researched video presentation by the BBC, and in my opinion it does a disservice to the citizens that pay taxes through television licenses to support the BBC.
UK readers are encouraged to make the issues and independent experimental results known to the BBC and to media monitors there.
Anticlimactic (11:57:31) :
[…]
“BBC broadcast meteorologist Daniel Corbett said a broad band of low pressure had been sitting across the UK, pushing the jet stream – a ribbon of fast moving air in the upper atmosphere – further south than usual, keeping high pressure and settled weather away from the UK. ”
The broad band of low pressure must have been sucking on the jet stream. Would be my explanation. Can one say that on air?
Doesn’t anybody know how the argue using logic these days? I thought the Q&A with “Sir Scientist” was funny. He made a point to defend a conspiracy with a truther style conspiracy. “Our conspiracy is smaller than yours!”
What exactly does the experiment “prove”? Were the earth a corked jar it would be a barren desert. Yet another flawed model.
People want to complain about the BBC, but don’t know how.
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elmer (09:12:46) : Great your experiment. Now you have to put a global warmer fan in a plastic Bag and blow your truck exhaust gases in it.
And if you look at this map you will very clearly see the storm that is pushing the jet stream so far South. This is likely the same storm that dropped all that snow on Washington DC.
During the Newsnight programme Sir David King was questioning the motives of the ClimateGate hackers. He stated that:
“They (the hackers?) have been accumulating them (the e-mails) since 1992 and they’ve just released them in the week before Copenhagen.”
Does he mean that they new Copenhagen would happen a way back in 1992?
Nigel S (11:18:03) :
“Better still just stop watching it rots the brain.”
I feel compelled to watch the BBC for the feeling of nausea that it gives me. LOL
388 ppm = 338/1,000,000 = 0.000388 correct?
doh 388/1,000,000
Here is the mythbusters video:
As you can see, they have four chambers, put one of the controls on the outside, the CO2 seems to be in the center and you can’t tell with the methane and 2nd control.
The center chambers would obviously be warmer though since they’d be warmed from two chambers adjacent to them, which the outside chambers would only be warmed by one adjacent chamber.
And that kid (unless it was for theatrical purposes), was recording the temps – I’m sure a brainwashed zealot would do a fine job accurately recording the temps.
From the “Weather is not Climate (but soon to be) dept:
70-75% of the US is currently covered in snow.
The Arctic Sea Ice in Greenland is wanting to grow a bridge to Iceland.
I got that early 70’s feeling.
The deceit does not surprise me. It simply preys on the average persons lmited knowledge of this area of science. We know CO2 is a green house gas which means it absorbs at some wavelengths in the thermal infrared range. CO2 in the atmosphere does warm the earth, no argument. The argument is about how much extra warming comes from an increase from 280 ppm to 560 ppm.
The aim of the experiment is to show that the high concenrtation CO2 will absorb more energy than air and hence get warmer. Lets do a few calculations. Air at sea level has a density of about 1.29 km/cubic meter. Since the air pressure at sea level is 10,000 kg/sq M that means the entire atmospheric column is equivalent to 10,000/1.29 or 7700 metres of air at sea level pressure. I remember Heinz Hug years ago publishing the absorbance of the CO2 in the atmospheric column at 14 microns was about 2000 abs for 280 ppm. Thats equaivalent to about 0.26 abs per meter at 280 ppm. If the 2nd bottle contained pure CO2 its absorbance would be 0.26 *10^6/280 or 928 abs/meter. That means a 1mm thick layer would absorb around 90% of the 14 micron radiation. Since the bottle is about 100 mm in diameter it is safe to say it would absorb all the 14 micron radiation. That is of course assuming the pastic walls of the vessel did not already do so. Since plastics are good absorbers of infrared its quite likely they would absorb everything anyway.
Just raising the CO2 level to about 1%, (just breathe into the bottle) means a 100 mm path length would absorb 90% of the 14 micron radiation. What! am I saying a bottle of your exhaled breath is enough to absorb essentially all the 14 micron radiation incident on it? Yes thats right, so maybe a better question would be to ask, if that is so, what difference does it make to double the concentration. More to the point it explains why the experiment does not work for some people. Even the bottle nominally filled with air may have enough CO2 in it to absorb all the 14 micron infrared. Maybe the experiment should be run with 3 bottles, one filled with CO2 free air (put a bit of builders lime [calcium hydroxide] mixed with water in the bottom of the bottle to absorb the CO2), fill the second bottle with exhaled air and fill the third bottle with pure CO2. If the latter 2 both rise about the same amount then ask the question what difference does increasing CO2 make.
Of course while that would be an experiment in favour of the skeptics it would be just as misleading. Firstly, CO2 absorbs at 2.7 microns, 4 microns and 14 microns . The earth’s surface is not hot enough to radiate significantly at 2.7 and 4 microns only at 14 microns. However the light globe filament is far hotter and would radiate far more energy at 2.7 and 4 than at 14 so we are measuring the impact of different absorption bands. Further, we know the pre industrial level of CO2 is already 1000 times more than necessary to absorb all the 14 micron radiation from Earth. The actual impact depends on the contuous absorption and emission of 14 micron radiation up the atmospheric column which this experiment does not come close to addressing. The fact that CO2 absorbs some infrared wavelengths does not mean AGW is proven. I did an analysis of the impact of CO2 in an article at http://jennifermarohasy.com/blog/2009/03/radical-new-hypothesis-on-the-effect-of-greenhouse-gases/
Here is a simple experiment you can do along the same lines just for fun. Get a heat lamp, turn it on and put your hand say 50 cm in front of the lamp. Feels warm? Now get a container of water (a fish tank is ideal – parallel sides) and put it between the lamp and you hand. Does it feel as warm? No it feels much colder because water is a good absorber of infrared radiation – ie: it is also a green house gas. What does it mean in relation to proving or disproving AGW? Precisely nothing.
Gary Hladik (11:47:07) got me to thinking after I took a look at the graph that he referenced entitled Solar Radiation Spectrum from Wickedpedia (my misspelling).
The best way to check out what impact CO2 has on the greenhouse effect in a greenhouse is to have equivalent greenhouse structures and vary the content of the CO2 in the atmosphere of the greenhouses–if one could construct three such greenhouses, simply keep one at ambient concentrations (i.e., ~388 ppm), increase the second’s atmosphere to, say, 1000 ppm (similar to what many greenhouses run to benefit plant production), and the third to, say, 2000 ppm and see what happens. If they were side-by-side and had equivalent internal structures and didn’t interfere with each other with shading, the emprical differences in temperature should give some indication whether CO2 was involved in the heating of the greenhouses or whether the glass comprising the structure walls/roof was the biggest contributing factor.
Does anyone know whether such an experiment has ever been undertaken?
“A Erickson (11:03:24) :
OT – Chemical and Engineering News, the weekly publication of the American Chemical Society has a major article on global warming, http://pubs.acs.org/cen/coverstory/87/8751cover.html, which is at least halfway balanced in it’s report. ”
It’s a good read. What i find striking is: Christy points out that measurements of troposphere temperature is not in sync with what the AGW models predict. Now i would assume an honest modeler to say something like: “Yes, that’s something we still don’t understand, more science needs to be done” but all we hear is “The scpetics are wrong, they believe in myths” from people like Dr. Mann.
What would be so wrong with admitting that there are areas that are not completely understood? I’m a computer programmer. All good programmers freely admit their errors. No good programmer would ever say “I don’t make errors.” Why can’t the leading scientist of Team Hockey admit that?
This attitude is a telltale sign.
This experiment is easy,
Set up the bottles, turn on the light, see which one heats up quicker, call that the bottle with the extra CO2, repeat in front of camera!
Of course for good measure they should use glass bottles since glass block IR transmission!
I’ve laid an official complaint shown below:
‘To whom it may concern,
I would like to make a complaint about the following video on Newsnight which I feel is intentionally & deceitfully misleading.
http://news.bbc.co.uk/2/hi/programmes/newsnight/8418356.stm
At 3.12 in the video there are 2 temperatures before warming:
Top number: Air with extra CO2 (34.0 C)
Bottom number: Normal air (35.6 C)
At 3.36 after both bottles have supposedly been warmed by the electric lamps the numbers now read:
Top number: Air with extra CO2 (38.7C)
Bottom number: Normal air (34.6C)
It seems that even though the bottom number was supposed to have been warmed by the electric lamp it has cooled by 1C!!!
I find this impossible to believe, & in conclusion have no alternative but to arrive at the conclusion that the lamp was turned off intentionally to promote a fraudulent viewpoint. If the BBC has the standards that it says it does then I suggest they expose this deliberate fraud publicly via their website or on television with an apology. Failure to do so will expose the BBC to be intentionally dishonest & journalistically unreliable. Please be aware that this issue has already appeared in numerous places on the web, & many people consider this yet another example of the BBC shamelessly deserting unbiased journalistic standards to promote a political agenda. What does the BBC think they’re playing at?’
Sue Smith (09:15:29) :
There is no licence for radio in the UK – and I’ve never had a radio that could pick up the sound from TV, though I don’t have a digital radio.
Digital radio? Back in the ancient days when all commercial broadcasts were analog, with the standard US frequency groupings (AM and FM for audio, VHF and UHF channels for TV), places like Radio Shack sold audio receivers for all four bands, battery-powered transistorized sometimes-handheld devices. A VHF-only one could be for in a city with VHF TV broadcasts (VHF doesn’t travel that far), you could listen to your soap operas or a baseball game while doing other things. You could have all four bands, some also had shortwave. Keep track of what’s on the TV (like news) without being stuck at a TV.
I must assume if they never made ones for UK use, it was only because the scarcity of BBC channels led companies to assume there would be no market.
Now that here in the US the TV “over the air” broadcasts are in digital, new equipment is needed to decode and extract the audio. Between TV’s being relatively cheap and portable, and with alternate technologies like cellphone and laptop TV, the market might not be there except for a few enthusiasts.
Thanks to the link provided above I can see the BBC has their expected sensibilities about the matter.
From here:
If you use your digital set-top box to produce sounds only (you don’t use it to display programmes), then you don’t need a TV Licence.
So if you are seeing any live video at all on anything then you need a license, but if the device is only extracting the audio (like for a speaker system) then you don’t need a license. Thus such a radio should be fine.
Also, from here:
You’re entitled to a 50% reduction in your TV Licence fee, if you’re certified as either blind or severely sight impaired.
If you’re not seeing any live video at all but you are listening to the sound, they only charge half.
Doesn’t that make perfect sense?
I’m not seeing this listed on the site… How much do they charge if you are blind and deaf?
Wow what a whizz kid that Jane chubchenko is.
So those sea shells adn corral reefs would grow just fine in ordinary tapwater; isn’t that special.
It would have been nice if she had used actual sea water taken from near say a coral reefr and put her blue dye into that to show it going yellow when she cooled the blazes out of it with dry ice. That’s the first time I’ve seen dry ice evaporate without giving off a cloud.
Having a bit of coral in the seawater so we could watch it turn up its toes would have been a nice touch.
Hey so long as the New Zealand green lipped mussels still grow, I don’t care if they turn crimson in the process; I prefer the pink ones anyway.
DirkH (13:31:00) referenced an article by American Chem Society and I read it to the point where it said:
“But water vapor is not considered a forcing. Nor is it assigned a global-warming potential, because it has a relatively short residence time of about 10 days in the atmosphere, compared with a century or longer for CO2.”
That is a bunch of baloney. What MATTERS is the abundance, not how long any particular molecule or portion of the entire masss has remained in the atmosphere. Atoms that remain in the atmosphere don’t progressively become better at absorption just because of their time there. Again, what MATTERS is the abundance of the gas. Residence time has nothing to do with it.
My gosh, who’s responsible for that idiocy?
Water ranges from 0 to 4% of the atmosphere–that’s up to 40,000 ppm, or an averge of 20,000 ppm! Compare that with the average of CO2 at 388 ppm, and water is about 50 times more abundant. And since water is known to be a more effective greenhouse gas than CO2, ignoring it and giving the excuse that it goes in and out of the atmosphere faster than CO2 is the biggest distortion I’ve heard yet.
I’m betting they ran the models with a proper weighting for water and they said “Oops… nothing to see here folks! Move along now…” And since that would have blown their whole argument, they decided to ignore it completely and used an illogical excuse.
These people get grants??
MERRY CHRISTMAS to all at WUWT. You guys are the greatest!! I look forward to even more and better in 2010. Thank you for all you do.
[Merry Christmas from Everyone at WUWT to you and all of you out there. ~ Everyone]
Alvin (13:11:47) :
“388 ppm = 38/1,000,000 = 0.000388 correct?”
Yes, correct! Which is 0.0388%
Response to:
Alvin (13:11:47) :
“388 ppm = 38/1,000,000 = 0.000388 correct?”
Yes, correct! Which is 0.0388%
You left out an “8” on the first equation; otherwise that’s correct.
God – I am beginning to hate the BBC so much!
The broadcasting of constant propaganda like this is an utter disgrace. The BBC is supposed – but has long since ceased – to be an impartial organisation. It has reached the point where I no longer believe anything they say, unless I have independent verification.
I am particularly annoyed that the one person in the room with sufficient commonsense to continue to question the mantra, even at the end of this “experiment”, got the brush off from the propagandist.
And what is this utter carp about mobile phone hacking???
@ur momisugly DirkH (13:31:00) :
There are no coding errors. Those are not bugs, they are features. If the program does not yield the desired result for the data that was inputed, it indicates the failure to properly condition the data before it was inputted.
Oh, and as a proper programmer, one should make sure to archive the list of all the individual data conditioning adjustments with the original data, so you can keep track of all of it at once. Even though you will only ever need the conditioned data as that works with the program.
Phil. (12:24:47) : ..to show anything related to the ‘greenhouse effect’.
First of all the experiment should be done in a cold room, say -20ºC, rather than a bottle a tall open-necked Dewar should be used. A black target containing a thermocouple should be mounted at the bottom of the Dewar, and a calibrated light source (brightness T ~5000ºC) capable of shining the desired light intensity on the target (~200W/m^2). The top of the Dewar should be closed with a plate of a material capable of transmitting both visible and 15μm (e.g. ZnSe). Then you’d have a chance of being relevant, the soda bottle rigs aren’t even close to the ballpark
It would be great if we got all the BBC guys into a cold room at -20C to “prove Global Warming”. Great news to have them treated for frostbite for the cause of their faith.
To “show anything related to the ‘greenhouse effect’” you presumably need not one dewar but two. Wont you have problems with calibrating the amount of CO2 to keep the experiment fair? and the distance of the two from the light source?
In any case all it might demonstrate, perhaps dubiously, would be “the greenhouse effect” of CO2.
It would not “prove Global Warming” as that idiot said it would.
Which SPECIFICALLY IS The PREDICTION THAT WE WILL WARM BY 3.5C BY THE END OF THE CENTURY.
WUWT
Guys – All this politics and schadenfreude at ClimateGate and the Copenhagen fiasco are all very well – but can we now increase the proportion of threads directly on the science of oceans, atmospheres, climate trends, interesting published articles etc.? Getting a bit nostalgic for the science at WUWT. (On climate its the best place to find it.)