Generally, the rate of mixing particles increases with temperature. This is because higher temperatures provide particles with more energy, allowing them to move faster and interact more frequently, leading to increased mixing. However, this relationship can vary depending on the specific particles involved and the conditions in the system.
inc temp, increases the ave. KE of the particles.
Yes, it affects the density of air and thus the speed of sound in air.
Higher the temperature, the faster the molecules move. This increased motion leads to greater reactivity, faster chemical reactions, and increased rates of diffusion.
yes it does because of scientific particles in mentos it cools down the water BYE
The water molecules increase their speed
When the temperature is increased, the speed also increases.
No, the size of the particles does not change. What does increase, however, is the speed of the particles and the amount of energy they each contain.
it does becuz temp it the speed particles are moving so it eects by how spread out the atoms are for the density
temperature is the average kinetic energy of the atoms of a gas. so with increased temperature the speed of the atoms of gas would increase. and since pressure is the collisions of said atoms on the side of a container; increased speed means more collisions of the particles and the side of the container increasing the pressure, and the same aplies for lowered temperature lower temp lower speed and less collions and less pressure.
When particles are spread out and moving rapidly, the temperature increases. This is because the kinetic energy of the particles is higher, causing more collisions and leading to an overall increase in thermal energy and temperature.
The temperature of a substance increases as heat energy is added to it, causing the particles in the substance to move faster, which leads to an increase in its kinetic energy. This increase in kinetic energy results in a rise in the average speed of the particles, leading to a rise in temperature.
True.
Nothing
I'd say you want the explanations exactly the other way around: Temp . . . how hot or cold the whole object is. Heat . . . the amount of energy in the object's particles.
higher ocean temp in the tropics
It drops.