in every sample of carbon monoxide ,the mass ratio of carbon to oxygen is 3:4
To convert 1 kg of carbon to carbon monoxide (CO), you need 1 kg of oxygen. This is because in the reaction of carbon with oxygen to form carbon monoxide, the ratio of carbon to oxygen is 1:1 by mass.
The proton to neutron ratio of carbon-14 is 6:8, which simplifies to 3:4. This ratio indicates that carbon-14 has 3 protons and 4 neutrons in its nucleus.
No, the ratio of carbon-14 to stable carbon in a living organism’s body can vary based on factors like diet, environment, and exposure to radiation. Carbon-14 is ingested through food and air, and its ratio to stable carbon can differ among individuals.
In nonane (C9H20), the atom ratio of carbon to hydrogen is 9:20.
It is 211/79.
It is 2110/1000 = 211/100.
211/144 is already in its simplest form
21.1 is a fraction. It is a fraction in decimal form rather than in the form of a ratio. However, that does not stop it being a fraction. Its equivalent, in rational form, is 211/10.
The neutron to proton ratio in a stable carbon-12 atom is 6:6, which simplifies to 1:1. Carbon-12 has 6 protons and 6 neutrons.
To determine the number of moles in 211 g of carbon dioxide, we need to divide the given mass by the molar mass of carbon dioxide. The molar mass of carbon dioxide (CO2) is approximately 44 g/mol. Divide 211 g by 44 g/mol to find that there are approximately 4.80 moles of carbon dioxide in 211 g.
This compound is carbon dioxide; the ratio oxygen/carbon is 2.
The ratio oxygen/carbon is of course 2.
No quite.It is a harmful compound of carbon, meaning that is combined with one or more other elements.In this case it is combined with oxygen in a 1:1 ratio.
The chemical ratio of carbon to chlorine in carbon tetrachloride (CCl4) is 1:4. The chemical ratio of carbon to fluorine in carbon tetrafluoride (CF4) is also 1:4.
in every sample of carbon monoxide ,the mass ratio of carbon to oxygen is 3:4
When nitrogen combines with carbon, it can form various compounds such as cyanides, isocyanides, and nitrides. These compounds can have different properties depending on the ratio of nitrogen to carbon atoms and the types of bonds formed between them. Nitrogen and carbon can also form covalent bonds in molecules like cyanogen.