Ok, i am currently on this subject right now and im in 7th grade, so, here goes... the temperature affects the kinetic energy of water molecules by slowing the molecules as the temperature gets cooler and when u heat up the water, the molecules spread out and bounce around. the colder, the more stuck together, more still and close they r. when they r warmer they r the complete opposite. hope that's good enough (:
The gas particles get all hyperactive, and the molecules sort of jump around. The more you raise the temperature, the more hyperactive they get. This will make them push off of other molecules around them, and they get faster because of that. Hope you like my answer! :) :D
The higher the temperature the faster the molecules move producing much more kinetic energy then normal.The lower the temperature the slower the molecules move and it produces less kinetic energy.
Because if it's hot then the particles will move faster, but when in cooler temperatures it will slow down the movement of the particles.
Higher temperatures raise the particles of a gas as in raising the speed the molecules move at.
the warmer the temp the more kinetic energy
If temperature is higher, kinetic energy is more
An increase in temperature increases the kinetic energy of molecules.
As the temperature of a gas increases, the kinetic energy of the particles will also increase.
Very roughly, the temperature can be understood as the average energy per particle and per degree of freedom.
Matter is made up of particles (atoms and molecules); temperature is closely related to the average kinetic energy per particle. More precisely, the average kinetic energy per particle per degree of freedom.
Yes. Temperature in Kelvins a measure of the average kinetic energy of the particles that make up the substance. The higher the temperature the greater the kinetic energy. The lower the temperature the lower the kinetic energy. At absolute zero there is no movement of particles, hence no kinetic energy.
Average KE is proportional to the temperature of the particles measured in Kelvin.Energy is measured in Joules and temperature is measured in Kelvin or Celsius. Do not think that they are the same thing.KE = 1/2mv2 for macroscopic objects but the equation for working out the KE of particles is quite complicated.
Average kinetic energy**** of the particles in an object
Temperature refers to the average kinetic energy of a suubstance. The higher the average kinetic energy, the higher the temperature.
As the temperature of a gas increases, the kinetic energy of the particles will also increase.
Temperature is a measure of the kinetic energy of the particles of a substance.
No. The average kinetic energy of the individual particles in an object is basically related to the object's temperature.
The average kinetic energy of particles is temperature.
Its temperature.
if the temperature of the substance is raised then the kinetic energy of the gaseous particles will also increase....
Temperature
Matter is made up of particles (atoms and molecules); temperature is closely related to the average kinetic energy per particle. More precisely, the average kinetic energy per particle per degree of freedom.
No. In gases, 'Absolute temperature' is proportionally related to the kinetic energy of the particles. Therefore, increase in temperature results in increase in the kinetic energy of the particles.
The term we use to describe this kind of measurement is "temperature". Note that temperature is not directly the average kinetic energy of the particles in an object (for one thing, temperature is measured in kelvins, kinetic energy is measured in joules). However, the two are related to each other.
Yes. Temperature in Kelvins a measure of the average kinetic energy of the particles that make up the substance. The higher the temperature the greater the kinetic energy. The lower the temperature the lower the kinetic energy. At absolute zero there is no movement of particles, hence no kinetic energy.
Temperature. Temperature is a measure of the average kinetic energy of particles of the substance.