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Intermolecular force of AsH3?
The intermolecular force in AsH3 is dipole-dipole interaction, which occurs between the partial positive charge on the hydrogen atoms and the partial negative charge on the arsenic atom. This force is weaker than hydrogen bonding but stronger than London dispersion forces.
Is AsH3 polar or non-polar?
AsH3, also known as arsine, is a polar molecule. This is due to the asymmetrical arrangement of the hydrogen atoms around the central arsenic atom, creating an uneven distribution of charge within the molecule.
Why is the boiling point of AsH3 lower thanNH3?
The boiling point of a compound is influenced by its molecular weight and intermolecular forces. AsH3 has a lower boiling point than NH3 because it is a lighter molecule (lower molecular weight) and has weaker hydrogen bonding interactions between its molecules compared to NH3, which has stronger hydrogen bonding.
What does AsH3 stand for?
AsH3 stands for arsine, which is a toxic and flammable gas with the chemical formula AsH3. It is composed of one arsenic atom and three hydrogen atoms.
Does AsH3 follow the octet rule?
No, AsH3 does not follow the octet rule. Arsenic, the central atom in AsH3, can expand its valence shell to hold more than eight electrons in bonding.
Intermolecular force of AsH3?
The intermolecular force in AsH3 is dipole-dipole interaction, which occurs between the partial positive charge on the hydrogen atoms and the partial negative charge on the arsenic atom. This force is weaker than hydrogen bonding but stronger than London dispersion forces.
Is AsH3 polar or non-polar?
AsH3, also known as arsine, is a polar molecule. This is due to the asymmetrical arrangement of the hydrogen atoms around the central arsenic atom, creating an uneven distribution of charge within the molecule.
Why is the boiling point of AsH3 lower thanNH3?
The boiling point of a compound is influenced by its molecular weight and intermolecular forces. AsH3 has a lower boiling point than NH3 because it is a lighter molecule (lower molecular weight) and has weaker hydrogen bonding interactions between its molecules compared to NH3, which has stronger hydrogen bonding.
What does AsH3 stand for?
AsH3 stands for arsine, which is a toxic and flammable gas with the chemical formula AsH3. It is composed of one arsenic atom and three hydrogen atoms.
What is the name for AsH3?
The chemical name for AsH3 is arsenic trihydride, also known as arsine.
Does AsH3 follow the octet rule?
No, AsH3 does not follow the octet rule. Arsenic, the central atom in AsH3, can expand its valence shell to hold more than eight electrons in bonding.
What is the oxidation number of the elements in AsH3?
In AsH3, arsenic (As) has an oxidation number of -3, as hydrogen (H) is typically assigned an oxidation number of +1. Since the overall charge of the molecule is neutral, the sum of the oxidation numbers must equal zero. Therefore, the oxidation number of arsenic is calculated as -3 to balance the +1 oxidation number of each hydrogen atom.
What is the name of the binary compound with the formula AsH3?
The name of the binary compound with the formula AsH3 is arsine.
What is the oxidation number of H in AsH3?
The oxidation number of hydrogen is almost always 1 and should be so in AsH3.
How do you find the H charge in AsH3?
The Arsenic in AsH3 typically has a plus one charge. Therefore the H must have a -1 charge to create the compound.
What is the oxidation number for each atom in AsH3?
In AsH3, arsenic (As) has an oxidation number of -3 since hydrogen (H) is always assigned an oxidation number of +1 in compounds.
What is the hybridization of AsH3?
this molecule has a similar shape to ammonia, however the bond angles are less- ammonia is 1070 whereas arsine is only 91 0. Usually it is said that the hybridisation in AsH3 is sp3 (however this would imply a bond angle of 109.5- which is close to the ammonia angle)- however the angle of 91 0 is so close to the angle between the p orbitals (900)that it suggest there is no hybridisation at all, and that the As- H bonds involve only p orbitals.
