The relationship between temperature and molecule movement is a direct variation. Whenever the molecule movement increases so does the temperature; when the molecule movement decreases so does the temperature. I hope that helps.
Temperature decrease is often associated with the slowing down of molecular movement in a substance. This can lead to changes in physical states, such as the solidification of a liquid or the condensation of a gas. Temperature decrease can also affect chemical reactions by decreasing reaction rates.
no relation iz between molecular weight and movement which iz a function of temperature only.
The rate of diffusion is least likely to increase with a decrease in temperature. Lower temperatures generally result in slower molecular movement, which reduces the kinetic energy of particles and hinders their ability to spread out. Other factors, such as higher concentration gradients, increased surface area, and greater temperature, tend to enhance the rate of diffusion.
heat.
increase
Molecular movement is directly related to temperature. As temperature increase, the additional energy is absorbed by the molecules. This energy is converted to motion energy and the molecules will move faster.
Temperature decrease is often associated with the slowing down of molecular movement in a substance. This can lead to changes in physical states, such as the solidification of a liquid or the condensation of a gas. Temperature decrease can also affect chemical reactions by decreasing reaction rates.
no relation iz between molecular weight and movement which iz a function of temperature only.
solubility generally increases with a temperature increase
Decrease
The movement of particles decrease as temperature decreases, and vice versa. Therefore, they will decrease while freezing.
"molecular"
When energy moves from air to an object, the object's temperature tends to increase as it gains energy from the air. This increase in temperature causes the particles in the object to move more rapidly. Conversely, when energy moves from an object to the air, the object's temperature tends to decrease as it loses energy to the air, leading to a decrease in particle movement in the object.
increase
Increase
Temperature affects entropy by increasing it as temperature rises. This is because higher temperatures lead to greater molecular movement and disorder, which results in an increase in entropy.
Temperature causes movement by increasing the kinetic energy of particles in a substance. As temperature rises, particles move faster and with more energy, leading to an increase in overall movement within the substance. Conversely, a decrease in temperature results in a decrease in particle movement.