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Because there are no compounds that aren't molecules/molecular. The question as posed is nonsense. Rephrase?
A molecule is when two atoms are bonded together. A compound is when two DIFFERENT atoms are bonded together. All compounds are molecules. Not all molecules are compounds.
This question can refer to a special category of organic molecules. These are the important molecules of carbohydrates, such as glucose.
No elements can be made from molecules, because molecules are made from elements instead. If the question is really, "What elements normally occur in nature as diatomic molecules?", the answer is hydrogen, nitrogen, oxygen, fluorine, chlorine, bromine, and iodine.
This is a somewhat broad question because there are many different kinds of compounds, and there are a variety of things that happen to valence electrons depending upon what kind of compound is formed, but in general, any given atom has 3 options when forming a compound: it can give up one or more electrons, acquire one or more electrons, or share one or more electrons.
Because there are no compounds that aren't molecules/molecular. The question as posed is nonsense. Rephrase?
A molecule is when two atoms are bonded together. A compound is when two DIFFERENT atoms are bonded together. All compounds are molecules. Not all molecules are compounds.
This question can refer to a special category of organic molecules. These are the important molecules of carbohydrates, such as glucose.
No elements can be made from molecules, because molecules are made from elements instead. If the question is really, "What elements normally occur in nature as diatomic molecules?", the answer is hydrogen, nitrogen, oxygen, fluorine, chlorine, bromine, and iodine.
No, it is one molecule.However some large organic molecules (i.e. polymers) are formed from small organic molecules (i.e. monomers) that bond together into long chains, forming one new large molecule. The small molecules no longer exist as individual molecules after bonding into the large molecule.
You can NOT dissolve 'covalent BONDS' because a bond is one couple of two electrons which hold their two 'parent' atoms together in one molecule.Try asking the question again with what you want to know, not what you have only 'heard of'.
i do not kno the answer that is why i am askingIt is much easier to get a question answered, if you don't "non-answer" it yourself.Ionic compounds are bonded loosely by electrostatic attraction of the ions.I'm not sure what you mean by "molecular compounds".Covalent compounds are bonded strongly by shared electrons in the valence band of the atoms.Perhaps that helps.
If your question is correct: the carbon dioxide is the first compound and the water is the second compound.
Go to the question box and type in What holds atoms in compounds together? I posted the answer there, sorry for the wait.
molecules Is this for a study guide? because it looks like the same question as a guide that i have...
Polar Covalent Compounds are dissolved by other Polar Covalent Compounds. Water is a Polar Covalent Compound, and can thus can dissolve other Polar Covalent Compounds. So, yes is the answer!
This is a somewhat broad question because there are many different kinds of compounds, and there are a variety of things that happen to valence electrons depending upon what kind of compound is formed, but in general, any given atom has 3 options when forming a compound: it can give up one or more electrons, acquire one or more electrons, or share one or more electrons.