In the atmosphere, they are attached in the form of gaseous carbon dioxide (CO2).
If you google "diagram oxygen-carbon dioxide cycle", from the image search, you'll see tons of diagrams. I tried to post one, in response to your question, but some rude person deleted it without any explanation.
This is a series of nuclear fusion reactions that converts ordinary hydrogen (single protons) into helium in the cores of stars somewhat heavier than the sun. The carbon, nitrogen and oxygen are only catalysts; they are not formed or destroyed. See the Wikipedia article "CNO cycle" for all the gory details.
You could use a radioactive isotope like carbon-14 to label the sugars during photosynthesis. By tracking the movement of carbon-14 in the carbon dioxide, you can determine if the oxygen in the carbon dioxide comes from sugar or oxygen gas. If the oxygen in the carbon dioxide comes from sugar, the carbon-14 label will also be seen in the oxygen.
Hydrogen, Carbon and Oxygen.It is easy to remember by breaking down the word. Carbois for Carbon. Hyd is for Hydrogen and ate means Oxygen is present.
Five examples of elements are Boron, Oxygen, Hydrogen, Carbon, and Calcium. To find more, see the link to Wikipedia in the related links (below).
If you google "diagram oxygen-carbon dioxide cycle", from the image search, you'll see tons of diagrams. I tried to post one, in response to your question, but some rude person deleted it without any explanation.
This is a series of nuclear fusion reactions that converts ordinary hydrogen (single protons) into helium in the cores of stars somewhat heavier than the sun. The carbon, nitrogen and oxygen are only catalysts; they are not formed or destroyed. See the Wikipedia article "CNO cycle" for all the gory details.
Formation of the carbon atomic nucleus requires a three way collision of helium nuclei (alpha particles within the core of a giant or supergiant star. These three helium nuclei are converted into carbon by means of the triple-alpha process. [See link] This carbon is then scattered into space when the star explodes as a supernova. For smaller stars the Bethe-Weizsäcker-cycle or CNO cycle (carbon-nitrogen-oxygen) [See link] , is one of two sets of fusion reactions by which stars convert hydrogen to helium. In the CNO cycle, four protons fuse using carbon, nitrogen and oxygen isotopes as a catalyst to produce one alpha particle, two positrons and two electron neutrinos. The carbon, nitrogen, and oxygen isotopes are in effect one nucleus that goes through a number of transformations in an endless loop.
I think it is like how you can't see oxygen, but you can see liquid oxygen...
A plant takes the carbon dioxide we exhale and turns it into oxygen for us to breath. This is a process called Photosynthesis and takes place only during the day, in the presence of sunlight. Plants also have a respiration cycle - take in oxygen to utilize their stores of energy - and give off carbon dioxide and water. See Related Links.
Yes you do. See we breathe in oxygen and we breathe out carbon dioxide. Plants are the opposite. They breathe in carbon dioxide and breathe out oxygen. We give them carbon dioxide and they give us oxygen!! That's how we breathe!!!!!!!
You could use a radioactive isotope like carbon-14 to label the sugars during photosynthesis. By tracking the movement of carbon-14 in the carbon dioxide, you can determine if the oxygen in the carbon dioxide comes from sugar or oxygen gas. If the oxygen in the carbon dioxide comes from sugar, the carbon-14 label will also be seen in the oxygen.
It is made up of carbon, oxygen and calcium. A carbonate contains oxygen and carbon so you know that, and then you can see that as it is called calcium carbonate it also contains calcium. :)
Soil itself does not give off oxygen. Instead, plants growing in soil release oxygen through the process of photosynthesis, where they use sunlight to convert carbon dioxide and water into oxygen and glucose. Soil can play a role in this process by providing nutrients and support to plants.
Hydrogen, Carbon and Oxygen.It is easy to remember by breaking down the word. Carbois for Carbon. Hyd is for Hydrogen and ate means Oxygen is present.
Carbon, Hydrogen, and Oxygen atoms (see page 45)
Single-cell organisms like bacteria and algae play a crucial role in the oxygen cycle through photosynthesis. They produce oxygen as a byproduct of this process, which contributes to the overall oxygen levels in the atmosphere. This oxygen is then utilized by other organisms for respiration.