The type of bond has absolutely nothing to do with the physical state of a compound or molecule. A covalently bonded substance can be a gas (diatomic hydrogen or water vapor), a solid ( ice), or a liquid (water).
This is actually a rather vague question. Bonds remain the same unless the temperature is high enough to break them. The physical state of a covalent bond is one of unequally shared electrons, that's pretty much it. In a carbon dioxide molecule, for example, the shared valence electrons spend more time with the oxygen nuclei than with the carbon nucleus.
Im angelo demitro and im a penguin lool :)
They are either solids or aqueous (if it is a soluble compound) at room temperature.
It is usually solid because a ionic compound has a charge making it usually in the stage of a solid.
how are the molcules atoms in matter affceted by that state.
high melting points
high boiling points
solubility in water
electromagnetic attractions
For example they have a higher melting point.
solid, with a hint of liguid
A chaqnge of the state of matter is allways a physical change.
physical because it is changing its state of matter
A physical change is a change in the form of matter but not the chemical composition of it.
For example, the change in the state of matter.
Name the 2 parameters which determine the physical state matter?
atom
States of matter are bulk properties. A single atom does not have any bulk properties, so it has no defined state of matter.
A state of matter is a physical property.
Yes the states of matter are a physical property.
A chaqnge of the state of matter is allways a physical change.
The state of matter is a physical property at any temperature.
a change in size, shape or the state of matter is a physical change. True for A+.
physical
Solids are the most dense state of matter
physical state defines the shape size and the form in which the matter exist in nature
Density and state of matter are physical properties, its not chemical =p.
no physical change does not change matter