the law of multiple proportions
the law of multiple proportions
It depends on which Carbon oxide you are using. For example Carbon dioxide produces Carbonic acid while Carbon monoxide produces Formic acid.
The elements in group 1 combine easily with other elements to form compounds because they are trying to get rid of their extra electrons. That is why, for example, potassium will react strongly in water. Hope this helps.
Covalent compounds are named by first looking at how many atoms the first element in a molecule has. We'll use H2O as an example (although it is commonly known as water). Since the H contributes two atoms to the molecule it has the prefix di-. If it had one it would be mono-, three, tri-, etc. The second element also follows that same rule, however, the ending is changed as well. In the case of oxygen, the -ygen is taken off and replaced by -ide. Therefore, the molecule H2O is also known as dihydrogen oxide.
Dihydrogen monoxide (H2O or Water) is not an example of a nonpolar molecule. It is a polar molecule.
yes, fire gives off carbon dioxide and takes in oxygen Additional answer It does rather depend on what it is that's burning in the fire. A fire that's entirely hydrogen burning would not produce carbon dioxide. Where would the carbon come from? Likewise, magnesium burning would not produce any.
Yes, for example: carbon dioxide (CO2) and carbon monoxide (CO) have the same elements but different subscripts.
An organic compound must contain both carbon and hydrogen. Carbon dioxide and carbon monoxide contain carbon an oxygen, but not hydrogen.
There are a lot of sulfur oxides, Sulfur monoxide, dioxide, trioxide to name just three. Sulfur monoxide is untable and is only transient, sulfur dioxide is the one that causes the problems in the atmosphere and is a precursor to H2SO4 industrially
When element chemically combine, they form compounds that have properties that are similar to those of the uncombined elements
Yes, some do. For example, CO2 is an inorganic compound containing carbon.
Compounds are substances that have two or more atoms bonded together. Carbon monoxide (CO), and carbon dioxide (CO2), water (H2O) and hydrogen peroxide (H2O2), and table salt (NaCl) and methane (CH4) are all compounds. There are literally millions of different chemical compounds. An example of a substance that isn't a compound is hydrogen gas (H2), because it is only composed of one type of element.
carbon monoxide is made up of 1 carbon atom bonded to 1 oxygen atom. The important thing to note here, carbon dioxide being a good example, is that oxygen in its natural state by itself exists as a molecule, 2 oxygen atoms, as it were, bonded together.
The possibilities are infinite:any of the over 100 elements on the periodic table (including carbon and oxygen)any of the billions and billions of chemical compounds - other than carbon dioxidea baseballsausagesscrambled eggsa planetetc.
Mostly carbon dioxide. If the supply of oxygen is restricted, carbon monoxide as well. Other things depend on what is in the burning substance, sulfur will give sulfur dioxide for example, and there may be nitrogen oxides.
No. An element, by definition, does not contain any other element. The only element that contains carbon is carbon; however, carbon does make compounds with other elements - for example, carbon dioxide and carbon monoxide with oxygen.
Sulfur can form both ionic and covalent compounds. For example, sulfur dioxide is a covalent compound whereas sulfides of metals are ionic compounds.
Some binary covalent compounds include water (H2O), carbon dioxide (CO2), and hydrogen fluoride (HF)