sweat drips down as the particle move in side your body like conduction
Cooling down. This can be from moving to cooler waters, or moving over land, which will also reduce its energy.
Turning off the sun may cause global cooling
In igneous rocks the grains are crystals of different minerals. When a crystal forms the particles take their places in a regular lattice, held together by forces of attraction between the particles. In the hot magma, the particles are moving too rapidly for these forces to prevail. When the liquid magma is cooled the particles slow down, and the forces cause them to align into the pattern we call a lattice. If cooling happens slowly, the particles lose energy slowly enough to allow them to find their places in the existing patterns, so quite large crystals build up. When cooling is fast, the particles slow down very rapidly and they can only align with the particles of the same kind which happen to be near them, so small crystals result. Think of a crowded hall full of soldiers dressed in different colours and all running around at random. They know that when the sergeant-major gives the order they have to form squares with others wearing the same colour. If they are given several minutes to do this, they have time to find the others wearing the same colour and take up their places, so you get a few, big squares. If they only have a few seconds then they can only find a small number of similarly dressed people and you'll get a lot of small groups.
Matter is composed of tiny particles, which, depending upon the type of matter, are either atoms or molecules. If they stick together firmly, you get a solid; if they have a moderate attachment to each other you get a liquid, and if they move completely independently of each other, you get a gas. There is always some degree of attraction between these particles, for any substance (which derives from electromagnetic forces). There is also always some degree of random thermal motion, whether the particles are just vibrating in place, or moving independently. The higher the temperature, the more random thermal you have. So, when the random thermal motion is strong enough, it can overcome the attraction between particles, and thereby cause a change of state. Or moving toward colder temperatures, the attraction between particles will at some point exceed the random thermal motion, and cause a change of state.
These particles are the electrons.
The airborne particles reflect solar radiation.
The high temperatures inside the rock cause the rock particles to melt and on cooling, they cement tightly together
Particles in an atom have opposite electrical charges, which cause the particles to attract each other, kind of like how positive and negative magnets stick together.
Particles in an atom have opposite electrical charges, which cause the particles to attract each other, kind of like how positive and negative magnets stick together.
Cooling down. This can be from moving to cooler waters, or moving over land, which will also reduce its energy.
Well, moving at speed will cause a cooling airflow around you, so sure.
Naturally occurring radiation is because of the instability of the nuclei of some atoms. The nucleus of an atom contains protons and neutrons, or positive and neutral particles. These positive particles are constantly repelling each other, but bind energy holds the nucleus together. The particles in the nucleus are not stationary, but are moving around. This can sometimes cause the instability to increase and 'throw' out some of the particles. This is radioactive decay.
You think probable to solid-air suspensions.
They cause the particles around them to be pushed together and then spread apart.
Temperature and/or pressure cause the bonds holding particles together to weaken.
because i dont really know
the cause is, evaporation is escaping of fastest, which are "hottest" one, particles (molecules, atoms), which leaves the cooler ones in liquid, so median temperature dropping towards coolest particles of liquid.