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Is it possible for different covalent compounds to have the same empirical formula?
Yes, it is possible for different covalent compounds to have the same empirical formula. This occurs when compounds have different arrangements of atoms but the same ratio of elements. An example is ethyne (C2H2) and benzene (C6H6), both of which have an empirical formula of CH.
It is possible for different covalent compounds to have the same empirical formula because empirical formulas represent?
the simplest whole-number ratio of atoms in a compound. Different covalent compounds can have the same empirical formula if they have different molecular structures that still result in the same ratio of atoms.
Is it possible for different covalent compounds to have the same empirical formula's why or why not?
Different covalent compounds can have not only the same empirical formula but also the same molecular formula. For example, C2H6O can be either dimethyl ether or ethanol. This can occur because of differences in bonding patterns. In dimethyl ether, the oxygen atom is bonded directly to both carbon atoms, but in ethanol the oxygen atom is bonded to oxygen and hydrogen instead.
Why is it possible for different covalent compounds to have the same empirical formula?
Isomerism. The structures of the molecules are different even when the numbers of atoms are the same. Organic molecules are the most common examples of this. Compare n-butane and iso-butane same formula different structures. See link
Why does covalent compound exhibit isomerism?
Covalent compounds exhibit isomerism because they have the same chemical formula but different structural arrangements of atoms. This results in different physical and chemical properties for each isomer. Isomerism in covalent compounds is often due to differences in the connectivity or spatial arrangement of atoms within the molecule.
Is it possible for different covalent compounds to have the same empirical formula?
Yes, it is possible for different covalent compounds to have the same empirical formula. This occurs when compounds have different arrangements of atoms but the same ratio of elements. An example is ethyne (C2H2) and benzene (C6H6), both of which have an empirical formula of CH.
It is possible for different covalent compounds to have the same empirical formula because empirical formulas represent?
the simplest whole-number ratio of atoms in a compound. Different covalent compounds can have the same empirical formula if they have different molecular structures that still result in the same ratio of atoms.
Is it possible for different covalent compounds to have the same empirical formula's why or why not?
Different covalent compounds can have not only the same empirical formula but also the same molecular formula. For example, C2H6O can be either dimethyl ether or ethanol. This can occur because of differences in bonding patterns. In dimethyl ether, the oxygen atom is bonded directly to both carbon atoms, but in ethanol the oxygen atom is bonded to oxygen and hydrogen instead.
Why is it possible for different covalent compounds to have the same empirical formula?
Isomerism. The structures of the molecules are different even when the numbers of atoms are the same. Organic molecules are the most common examples of this. Compare n-butane and iso-butane same formula different structures. See link
Why does covalent compound exhibit isomerism?
Covalent compounds exhibit isomerism because they have the same chemical formula but different structural arrangements of atoms. This results in different physical and chemical properties for each isomer. Isomerism in covalent compounds is often due to differences in the connectivity or spatial arrangement of atoms within the molecule.
Are molecular substances the same as covalent compounds?
Usually, however, the are a few covalent compounds, such as silicon dioxide (SiO2) that form covalent networks rather than molecules.
Are covalent molecular compounds ductile?
No, covalent molecular compounds are typically not ductile because they are made up of individual molecules held together by covalent bonds. These compounds have a molecular structure that does not allow for the same type of malleability or flexibility as metallic or ionic compounds.
Organic compounds are also covalent compounds what properties would you expect organic compounds to have as a result?
As covalent compounds, organic compounds tend to have relatively low melting and boiling points, be non-conductive of electricity, and have lower solubility in water. They also commonly exhibit isomerism, meaning they can have the same chemical formula but different structural arrangements, leading to a wide range of diverse compounds.
Is clorine a covalent or ionic?
Chlorine, Cl2 is covalent. Any molecules which consist of two atoms of the same element must be covalent. In compounds with other elements chlorine can form ionic or covalent compounds.
Would ionic or covalent molecules use the molecular formula or empirical formula?
What you write for an ionic compound is called the formula unit, but the formula unit is almost always the same as the empirical formula. The answer to your question could not be the molecular formula because an ionic compound is not a molecule.
Is a molecular compound the same as a covalent compound?
A molecule is two or more atoms bonded together.A compound is two or more different atoms bonded together therefore almost all compounds are molecular. A covalent compound is, therefore, usually a molecule with a specific type of bond in which the two (or more) atoms share electrons from their outer shells.Some covalent compounds don't form molecules, however, such as Silicon Dioxide which forms a covalent network..
What properties are the same for ionic and covalent compound?
Ionic and covalent compounds both involve the bonding of atoms to form stable structures. However, the main difference lies in the type of bond formed: ionic compounds involve the transfer of electrons between atoms, while covalent compounds involve the sharing of electrons. Both types of compounds can have high melting and boiling points, depending on their structure and bonding.
