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Condensate is when temperatures are near absolute zero and the process causes atoms to begin to clump. When the temperatures gets colder and colder, the atoms aren't able to move.
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When temperatures are near absolute zero what causes atoms to clump?
the answer is Who cares?
When temperature are near absolute zero what process causes atoms to begin to clump?
Near absolute zero, atoms begin to clump together due to a phenomenon known as Bose-Einstein condensation, which is a state of matter where a large number of particles occupy the same quantum state. This clumping occurs because atoms lose their individual identities and behave as a single entity at such low temperatures.
When are atoms not in motion?
Atoms are always in motion, even at very low temperatures. This motion is due to the thermal energy possessed by atoms. However, at absolute zero temperature (-273.15°C or 0 Kelvin), the atoms would theoretically have no motion as their thermal energy would be reduced to the minimum. However, achieving absolute zero temperatures is practically impossible.
When the temperature is near to absolute zero what process causes atoms to begin to clump together?
This dearth of process is called missing energy of motion; or lack of Kinetic energy. In this case the term 'super, super, super Freezing' will apply.
The splitting of atoms causes other atoms to split in this process?
It's called thermonuclear reaction.
What is the description of the process of diffusion?
During diffusion, the random motion of atoms causes them to spread out gradually.
Do cold temperatures cause matter to stop moving?
Sort of. The lower the temperature, the slower atoms move ... but they only stop if the temp is absolute zero - and that condition does not occur in reality.
As heat is added to a solid substance the atoms do what and move apart?
As heat is added to a solid substance, the atoms start vibrating faster and with more energy. This increased vibration causes the atoms to move farther apart from each other, leading to thermal expansion of the substance.
How do particles move at higher temperatures compared to how they move at lower temperaturs?
Unless an object is at Absolute Zero temperature, its atoms are in constant movement, either vibrating in a solid, or bouncing around in liquid or gas. Energy excites atoms. Excited atoms move faster. Any object above Absolute Zero is said to have SOME heat. The faster an objects atoms are moving, the higher its temperature is said to be.
Why cant there be a temperature lower than absolute zero?
Temperature lower than absolute zero is not possible. Lower than absolute zero a gas contain negative pressure and volume which is not possible. temperature is the energy created by moving atoms absoulte zero is a complete stand still you can make particles move to the end of the universe but the coldest temperature will be stuck at the point where atoms are motionless
When the temperature is near absolute zero what do the atoms begin to do?
Atoms near absolute zero begin to exhibit unique quantum behaviors, such as superfluidity and superconductivity. They slow down significantly and may even coalesce into a single quantum state, behaving as a collective rather than individual particles. These phenomena are a result of the atoms' wave-like nature dominating their behavior at such low temperatures.
The sun produces energy from matter in its core through the process of?
nuclear fusion. This process involves high temperatures and pressures that cause hydrogen atoms to fuse into helium atoms, releasing energy in the form of light and heat.
