It might cool another fraction of a degree (to -273.15 deg C, approx). No further cooling can take place since at that temperature, there is no longer any atomic vibrational energy left to remove from the substance and so no means to lower the temperature.
False. Most substances contract or shrink when they are cooled down because cooling reduces the kinetic energy of the particles in the substance, causing them to move closer together.
1.) A sample of chlorine gas is compressed. 2.) A sample of water is frozen. 3.) A diamond is submerged in water. 4.) A lead weight is carried up a mountain. 5.) An Iron bar is cooled.
If you cool air enough, it will eventually condense into liquid form. This liquid air can then be further cooled to solidify into a snowy substance known as dry ice. The physical properties of air change as it transitions from gas to liquid to solid at decreasing temperatures.
When materials are heated, the particles gain kinetic energy and move faster, leading to expansion of the material. Conversely, when materials are cooled, the particles lose kinetic energy and move slower, causing the material to contract or condense.
when water vapour is cooled it condenses and falls as rain
i. dont.know
When cooled enough it will condense into a liquid. The required temperature changes with the substance.
a liquid then if cooled further it would turn into a solid a liquid then if cooled further it would turn into a solid
it blows
It freeseez.
they expand
It contracts.
it will solidify.
When a substance is heated, the molecules gain kinetic energy and move faster, causing them to vibrate and collide more frequently, which increases the temperature of the substance. When a substance is cooled, the molecules lose kinetic energy and move slower, reducing the frequency of collisions and vibrations, which lowers the temperature of the substance.
It contracts. solid
When a substance is cooled to its original temperature, no energy is released. Cooling a substance typically involves removing energy from the substance, but this process does not generate energy. The energy removed is used to lower the temperature of the substance.
YES, as far as I'm concerned, a substance expands when heated and contracts when cooled.