Want this question answered?
The kinetic theory states that when a solid is heated the bonds between the particles are loosened thus making it a liquid.
The rate of reaction increases with increasing temperature. When the temperature is increased, the kinetic energy of the reacting particles hence the frequency of effective collisions are also increased. Hence the rate of reaction is faster.
The temperature of a gas if there were no interactions between the molecules. Calculated as: T_hypo=p*V/(N*k_B) or p*V/(n*R), where p is the pressure of the gas, V is the volume, N is the number of moleculesm k_B is Boltzmann's constant, n is the number of moles of the molecules and R is the ideal gas constant.
As explanation may be the interactions between the molecules of water and the molecules of the solute; the entropy of the solute is then decreased.
1 mol per dm cubed, and has no interactions between molecules.
As indicated by Charles's Law, at constant pressure, the volume decreases when the temperature decreases. This is due to slowed collisions between molecules.
The molecules will not collide as often with the walls decreasing the volume
you can shrink the spaces within the molecules of liquid by increasing the temperature (freezing it ) or adding pressure.
When heat is supplied the intermolecular/interparticulate force decreases and the particles gain in Kinetic energy and start moving randomly. Since, the force between molecules decreases, the intermolecular spaces increase and particles start pressing against the wall of the container in order to escape out.
gas
The kinetic theory states that when a solid is heated the bonds between the particles are loosened thus making it a liquid.
Temperature decreases as the elevation increases.
The atoms have greater kinetic energy and move faster when the temperature is raised, resulting in more frequent contact between the magnesium atoms and acid molecules, which will cause the rate of the reaction to increase.
Dipole dipole interactions are between two polar molecules. As long as two molecules are polar, they form dipole dipole interactions.
dipole-dipole
Intermolecular describes the interactions between separate molecules.
between two charged molecules