750006754864256789497858:2
No, the chemical ratio of carbon to chlorine to fluorine in CCl2F2 is 1:2:2, meaning there is 1 carbon atom, 2 chlorine atoms, and 2 fluorine atoms in each molecule of CCl2F2.
One mole of freon CCl2F2 contains 1 atom of carbon, 2 atoms of chloride, and 2 atoms of fluorine. The chemical ratio of carbon to chloride to fluorine in freon CCl2F2 is 1:2:2.
To find the empirical formula, convert the masses of each element to moles. The molar ratio of carbon to chlorine to fluorine is 1:1:2. Therefore, the empirical formula is CClF2.
The reaction between chlorine gas and fluorine gas yields a gaseous product with formula ClF3. This is because the ratio of volumes (1:3) corresponds to the molar ratio in the balanced chemical reaction: 2Cl2 + 3F2 → 2ClF3.
The empirical formula of a compound containing 7.8% carbon and 92.2% chlorine is CCl3. This can be determined by converting the percentages to moles, finding the ratio of moles, and simplifying to the smallest whole number ratio.
No, the chemical ratio of carbon to chlorine to fluorine in CCl2F2 is 1:2:2, meaning there is 1 carbon atom, 2 chlorine atoms, and 2 fluorine atoms in each molecule of CCl2F2.
One mole of freon CCl2F2 contains 1 atom of carbon, 2 atoms of chloride, and 2 atoms of fluorine. The chemical ratio of carbon to chloride to fluorine in freon CCl2F2 is 1:2:2.
False
To find the empirical formula, convert the masses of each element to moles. The molar ratio of carbon to chlorine to fluorine is 1:1:2. Therefore, the empirical formula is CClF2.
This compound is carbon dioxide; the ratio oxygen/carbon is 2.
The reaction between chlorine gas and fluorine gas yields a gaseous product with formula ClF3. This is because the ratio of volumes (1:3) corresponds to the molar ratio in the balanced chemical reaction: 2Cl2 + 3F2 → 2ClF3.
2/6 or 1/3.
Carbon is a chemical element, not a compound.
There is no carbon in sodium chloride. Sodium chloride, what we call table salt, contains sodium and chlorine in a one-to-one ratio. These molecules have no carbon in them at all.
The empirical formula of a compound containing 7.8% carbon and 92.2% chlorine is CCl3. This can be determined by converting the percentages to moles, finding the ratio of moles, and simplifying to the smallest whole number ratio.
The chemical formula for carbon nitride is typically denoted as C3N4. It is a compound composed of carbon and nitrogen atoms in a specific ratio.
The molecular formula for a compound consisting of carbon and fluorine can vary depending on the specific compound. For example, the simplest binary compound is carbon tetrafluoride, which has the molecular formula CF₄. Another example is carbon difluoride, with the formula CF₂. The specific formula will depend on the ratio of carbon to fluorine in the compound being considered.