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Chemical observations by thousands of science experts from the 1800's through the early 1900's derived our average CO2 values to be between 330 and 470 ppm. (see link below for peer reviewed paper stating 90,000 such cases). They show highs in certain years of over 440 ppm as early as 1880 and 1940.
Today we have alternative methods to determine CO2 levels that simply were unavailable then. They show a rise, for the past several decades, of CO2 up to 391 ppm (during summer months) in some areas. This indicates that CO2 levels have risen for the past several years.
To create an issue such as man induced global warming, we must have a trigger mechanism. Carbon Dioxide is a very large byproduct of the modern era. To make a valid case, historically measured levels would need to be ignored.
If we use these same methods to determine CO2 levels today, we would agree that world averages were 390 ppm or so. There is no other valid explanation to ignore this data.
AnswerThere were occasional, snapshot observations of carbon dioxide levels taken earlier in the nineteenth century, some giving readings well above present levels and even well over 500 ppm, but these were all taken in or close to highly polluting urban areas such as central Paris, and were influenced by local factors and wind directions. No serious climate scientist could use these observations to estimate global concentrations of carbon dioxide, especially in the face of more reliable data.The late Ernst Beck, a Biology teacher at the Merian technical grammar school in Freiburg and co-founder of the European Institute for Climate and Energy (EIKE) set out to read meaning into the CO2 measurements taken early in the nineteenth century. Climate experts consider his work to contain major flaws, such that the conclusions are completely wrong. Ralph Keeling, a Professor and the Principal Investigator for the Atmospheric Oxygen Research Group at SIO, calls Beck's paper pseudo-science and says it contains serious conceptual oversights that would have been spotted by any reasonably qualified reviewer. Thus, there actually was a well-intentioned attempt to consider those early CO2 readings from the 1800s, but these were readings of heavily polluted air and never had relevance to global warming and climate change.
The first serious research conducted on the effect of changes in CO2 levels was in 1896, when Arrhenius completed a laborious numerical computation which suggested that cutting the amount of CO2 in the atmosphere by half could lower the temperature in Europe some 4-5°C (roughly 7-9°F) - that is, to an ice age level. Arrhenius made a calculation for doubling the CO2 in the atmosphere, and estimated it would raise the Earth's temperature some 5-6°C (averaged over all zones of latitude). His calculations did not take into account the effect of the oceans in ameliorating the effect of rising carbon dioxide levels, and in any case Arrhenius and other researchers were only interested in explaining the Ice Ages. No one seriously believed that global warming was coming. After much criticism, the work of Arrhenius was ignored by the scientific community.
Subsequent work has shown that the temperature rise up to 1940 was, as his critics thought, mainly caused by some kind of natural cyclical effect, not by the still relatively low CO2 emissions. It was not until the 1970s that scientists began to take the possibility of global warming seriously and began to accept at least the principles of Arrhenius' research.
What else can I help you with?
Would cause entropy to decrease A. CO2(l) CO2(g) B. CO2(s) CO2(g) C. CO2(g) CO2(l) D. CO2(s) CO2(l)?
Entropy would decrease in the process represented by option C: CO2(g) → CO2(l). In this transition, gaseous CO2, which has higher disorder and randomness, condenses into liquid CO2, resulting in a more ordered state and a decrease in entropy. The other options involve processes that either maintain or increase entropy.
What is the difference between Co2 compressible and Co2 incompressible?
Gasses are compressible and liquids and solids are incompressible. Using this information one can surmise that CO2 compressible would be the gas phase of CO2 and CO2 incompressible would be the solid (dry ice) phase of CO2.
How many CO2 moles comprise one mole of CO2?
6.02 ten to the power of 23
What is the chemical form of CO2?
CO2 is the carbon dioxide.
What molecules is the heaviest CO2 H2O co or h2?
CO2
How can the student make quantitative observations of the CO2 collected in the balloons?
The student can measure the volume of CO2 collected in each balloon using a measuring cylinder or by displacing water in a container. They can also use a gas syringe to measure the amount of CO2 collected. Additionally, they can track the time it takes for the balloons to fill up with CO2 to make comparisons.
Why is there a plug in Bottles of Guiness Draught?
It is the same as the object in 16oz cans of Guinness. It is a one time CO2 cartridge which infuses the beer with a burst of CO2 when it is opened. This is why Guinness has so much foam when you open it. Many beer "experts" believe beer needs to have a certain amount of CO2 to allow the full flavor of the beer to be experienced.
What is dry ice and is dry ice the solid state of water and explain based of your observations.?
Dry ice is solid CO2. It is a cooling agent used in refrigerators, etc..
How are CO2 emissions measured and monitored to track their impact on the environment?
CO2 emissions are measured and monitored using various methods, including direct measurements at emission sources, satellite observations, and atmospheric monitoring stations. These data are used to track the impact of CO2 emissions on the environment by analyzing trends over time and assessing their contribution to climate change.
Why is it a problem for carbon dioxde to be released in to the atmosphere?
It really is not a problem. Currently CO2 levels are at a global level of 0.037%. Nature produces the vast bulk of this CO2 and life would stop on the planet if level dropped to 200 PPM. If you look at the Vostok webiste (where we get our old climate data from) one of the complaints that science experts have is the level of CO2 is too low! Only 280 PPM. Without CO2 the planet would be extremely cold and quite dead. Our oceans, which collect most of the CO2 from or atmosphere, do an awesome job of pulling the CO2 out of the air!
Is there carbon dioxide on Europa?
Yes, carbon dioxide (CO2) has been detected on Europa, one of Jupiter's moons. Observations from spacecraft, including the Galileo orbiter, have identified CO2 in the moon's surface ice. This suggests that there may be active geological processes occurring on Europa, potentially linked to the subsurface ocean beneath its icy crust. However, the concentration and implications of CO2 on Europa are still subjects of ongoing research.
How is CO2 measured in the atmosphere and what methods are used to accurately determine its levels?
Carbon dioxide (CO2) in the atmosphere is measured using various methods, including ground-based monitoring stations, satellite observations, and air sampling. Ground-based stations use instruments like infrared gas analyzers to measure CO2 levels directly. Satellites can also detect CO2 concentrations from space using remote sensing techniques. Air sampling involves collecting air samples at different locations and analyzing them in laboratories to determine CO2 levels accurately. These methods help scientists monitor and track changes in CO2 levels in the atmosphere over time.
Does Europa have carbon dioxide?
Yes, Europa, one of Jupiter's moons, has been found to contain carbon dioxide (CO2) on its surface. Observations from the Hubble Space Telescope and data from the Galileo spacecraft indicate the presence of CO2 in the form of ice. This finding is significant as it contributes to the understanding of Europa's potential habitability and the chemical processes occurring on its icy surface.
Why is lumber harvest a wicked problem?
It is not a "wicked" problem, but some do believe that the harvesting of our rainforests is problematic. Harvesting here in the United States is far more regulated and we have more tress and board feet of growing forest today then 100 years ago. This should also have some CO2 mitigating issue that is often ignored. The number one method that CO2 is out into our atmosphere is through rotting vegetation and trees. Structures built from wood do not decompose as quickly and the land can have new trees planted that also exchange CO2 for oxygen. 94% of all CO2 comes from natural sources such as rotting trees. Our oceans are the largest sink for CO2, so while over harvesting is certainly not good, it is hardly wicked.
How is CO2 written?
CO2 is written using the chemical formula CO2, which is a representation of one carbon atom bonded to two oxygen atoms. It is commonly referred to as carbon dioxide.
Would cause entropy to decrease A. CO2(l) CO2(g) B. CO2(s) CO2(g) C. CO2(g) CO2(l) D. CO2(s) CO2(l)?
Entropy would decrease in the process represented by option C: CO2(g) → CO2(l). In this transition, gaseous CO2, which has higher disorder and randomness, condenses into liquid CO2, resulting in a more ordered state and a decrease in entropy. The other options involve processes that either maintain or increase entropy.
What is the reason for the upward trend in atmospheric carbon dioxide since the late 1800s?
The upward trend in atmospheric carbon dioxide since the late 1800s is primarily attributed to human activities, particularly the burning of fossil fuels like coal, oil, and natural gas for energy and transportation. Deforestation and land-use changes also contribute by reducing the number of trees that can absorb CO2. Industrial processes and agricultural practices further release greenhouse gases, exacerbating the increase in atmospheric CO2 levels. This rise in carbon dioxide is a significant driver of climate change and global warming.
