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
Yes, in the gaseous state, molecules can experience van der Waals forces, which are weak intermolecular forces that arise from temporary fluctuations in electron distribution within molecules. These forces play a role in determining the behavior and properties of gases.
At 25 degrees Celsius, hydrogen is in a gaseous state.
Water in a gaseous state is water vapour, or mist. It is commonly known as steam if the water has been heated.
Solid state: ice; Liquid state: water; Gaseous state: steam.
The cause is just this weak intermolecular force, ease to be broken.
Liquid bromine has a smaller volume than gaseous bromine because in the liquid state, the bromine molecules are closer together and take up less space compared to when they are in the gaseous state where they are more spread out. This difference in molecular arrangement leads to differences in volume between the two states.
The liquid state is caused by intermolecular forces.
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..
Diffusion is maximum in the gaseous state because gas particles have high kinetic energy, which allows them to move rapidly and collide with other particles, leading to faster mixing and spreading of the substance. Additionally, gas particles are more spread out and have less intermolecular attraction, facilitating easier movement and faster diffusion.
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.
Oxygen is a gas at room temperature and pressure. It is colorless, odorless, and tasteless in its pure form.
g force
The gaseous state of matter typically has the greatest molecular motion, as the particles are not confined and have high kinetic energy. In gases, molecules move freely and collide with each other and their container, creating pressure and filling the available space.
At 25 degrees Celsius, hydrogen is in a gaseous state.
The molecules/atoms move far apart. As the separation between paricles increase, the state is changed. The temperature does not rise because the heat is used to overcome inter-molecular forces.
Inter-State - automobile - was created in 1909.