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Sodium hydroxide granules absorb carbon dioxide.
To test for the production of carbon dioxide, you can perform the following experiment: Add a small amount of a substance that can produce carbon dioxide, such as baking soda, to a container. Then, add an acid, such as vinegar, to the container. If the production of carbon dioxide occurs, you will observe bubbling or fizzing, indicating the release of carbon dioxide gas.
There are a number of equations that could answer this question. Here are some: glucose + oxygen => carbon dioxide + water hydrocarbon + oxygen => carbon dioxide + water Note: Hydrocarbons are (in general) petroleum vehicle fuels (though a number of other products are hydrocarbons). As the question was categorized in global warming, and because hydrocarbon burning is a major contributor to greenhouse gases, that equation may be the "best" one to answer this question.
6CO2 + 6H2O ------> C6H12O6 + 6O2CO2 = carbon dioxideH2O = waterC6H12O6 = glucoseO2 = oxygenLight energy is required
C6H12O6 + 6O2 --> 6CO2 + 6H2O Tip: It's easy to remember how to balance it... 666.. Oxygen + Glucose = Carbon Dioxide + Water Oxygen and Glucose = Need Carbon Dioxide = Waste Products (ATP = Universal Energy Currency)
Sodium hydroxide granules absorb carbon dioxide.
To test for the production of carbon dioxide, you can perform the following experiment: Add a small amount of a substance that can produce carbon dioxide, such as baking soda, to a container. Then, add an acid, such as vinegar, to the container. If the production of carbon dioxide occurs, you will observe bubbling or fizzing, indicating the release of carbon dioxide gas.
There are a number of equations that could answer this question. Here are some: glucose + oxygen => carbon dioxide + water hydrocarbon + oxygen => carbon dioxide + water Note: Hydrocarbons are (in general) petroleum vehicle fuels (though a number of other products are hydrocarbons). As the question was categorized in global warming, and because hydrocarbon burning is a major contributor to greenhouse gases, that equation may be the "best" one to answer this question.
6CO2 + 6H2O ------> C6H12O6 + 6O2CO2 = carbon dioxideH2O = waterC6H12O6 = glucoseO2 = oxygenLight energy is required
C6H12O6 + 6O2 --> 6CO2 + 6H2O Tip: It's easy to remember how to balance it... 666.. Oxygen + Glucose = Carbon Dioxide + Water Oxygen and Glucose = Need Carbon Dioxide = Waste Products (ATP = Universal Energy Currency)
Since water and carbon dioxide are both compounds which contain oxygen, it is possible to obtain oxygen from either, but you get a different residue depending upon which compound is the source of the oxygen. Take the oxygen out of water and you are left with hydrogen gas; take the oxygen out of carbon dioxide and you are left with carbon, which is a black solid. It is easy to spot the difference between hydrogen and carbon.
Bromothymal blue is blue because it is easy to make out in an acid and water with carbon dioxide.
Chloro(plast)...(fast) food...chloroplast makes food from sunlight, water and carbon dioxide...rhyme...its dumb but it works!
well if you add fuel to oxygen then carbon dioxide + water you make a combustion a simple easy thing to make and the recantants were fuel and oxygen .
The solubility of these non-polar gases depends mostly on London dispersion forces between the water molecules and the gas molecules. Since carbon dioxide is larger (has a higher molecular weight) than methane, it is more polarizable and it therefore has stronger intermolecular forces with water. The strength of intermolecular forces (forces between molecules) is directly related to the solubility of any substance in water.
Adding is as easy as breathing oxygen and exhaling carbon dioxide
Capillaries are the thin-walled vessels that allow oxygen and carbon dioxide exchange. Their thin walls make it easy for gases to diffuse across the membranes.