yes intermolecular force are present but they are too weak because they depend on the distance b/w molecule and their is a alot of distance between molecule in gaseous state,so they are weak
Lithium is a metal, so is referred to as a metallic lattice, so molecular formula doesnt apply. gaseous lithium can form Li2 at high temperatures. Fluorine forms F2 gas in its standard molecular state
Molecular
i think in the gaseous phase there are other forces acting atoms of iodine like inter moleculer forces due to wich bond distance increases. in case of gasous state there are no other force acting on the molecule of iodine axcept electrostatic force between two atoms of iodine . so in case of gase elctrostatic force is more than in the case of solid.. if my answer is true please inform me on my cell numbar 00923456744580
Usually in the form of increased or decreased kinetic energy of the molecules and added or reduced inter-molecular potential energy. Which way it goes depends on the direction of change in state.
Usually in the form of increased or decreased kinetic energy of the molecules and added or reduced inter-molecular potential energy. Which way it goes depends on the direction of change in state.
The liquid state is caused by intermolecular forces.
Diffusion mostly takes place in gaseous state because as the air molocules are free to move and the inter molecular space is very high the fragrance spreads from one air molecule other easily.but in the case of solids it is not possible.
Oxygen is usually found in its Gaseous state in molecular form (O2).
H2O represents the molecular formula of water (liquid state), ice (solid state) or water vapour (gaseous state).
yes if it would make covelent bond
think in the gaseous phase there are other forces acting atoms of iodine like inter moleculer forces due to wich bond distance increases. in case of gasous state there are no other force acting on the molecule of iodine axcept electrostatic force between two atoms of iodine . so in case of gase elctrostatic force is more than in the case of solid..
intermolecular force between the sio2 molecule is greater than that of the co2 molecule....the co2 molecule is in it gaseous state while that of the sio2 is crystalline making the intermolecular force stronger than that of the co2 molecule.
Lithium is a metal, so is referred to as a metallic lattice, so molecular formula doesnt apply. gaseous lithium can form Li2 at high temperatures. Fluorine forms F2 gas in its standard molecular state
Molecular
g force
the water molecules within the H20 in its liquid form accumulate energy, usually supplied in the form of heat, which is then released by the molecule in the form of kinectic energy allowing each molecule to free itself from the weak inter-molecular forces maintaining the liquid state, therefore the water becoming as a whole, gaseous.
i think in the gaseous phase there are other forces acting atoms of iodine like inter moleculer forces due to wich bond distance increases. in case of gasous state there are no other force acting on the molecule of iodine axcept electrostatic force between two atoms of iodine . so in case of gase elctrostatic force is more than in the case of solid.. if my answer is true please inform me on my cell numbar 00923456744580