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they do not form when heated! they form crystals when they are frozen bu a freezer or room tempreature.
The end that is being heated should be hotter than the other end.
The density of heated air is less than the density of cooler air.
Because crude oil is a mixture of different chemicals - mainly hydrocarbons - that have different evaporation temperatures. Roughly speaking, when the crude is heated, its temperature rises until it reaches the lowest vaporisation temperature. The temperature then remains more or less steady as the heat input is used as the latent heat of vaporisation for the relevant compound. When [almost] all of that compound has evaporated, the temperature starts rising again until it reaches the next varorisation temperature, and so on.
The nagle of light determines the area over which the energy of the light is spread out and that will affect how much it is heated.
A Mica Garnet schist is a metamorphic rock formed from a shale or a granitic mother rock when this is squashed and heated at death in the crust.
A Mica Garnet schist is a metamorphic rock formed from a shale or a granitic mother rock when this is squashed and heated at death in the crust.
Most materials expand when heated due to increased molecular motion, causing the particles to move farther apart. However, if heated to extremely high temperatures, materials can undergo phase changes, such as melting or vaporization. Additionally, some materials may decompose or undergo chemical reactions when heated.
Matter expands when heated, because molecules move farther apart.
they get farther apart.
When a liquid is heated the particles increase speed and then move farther apart. Also the liquid and bubble up.
When things are heated, the heat causes the molecules to move faster and that forces them farther apart, causing the item to expand.
The atmosphere is more heated from below because the air is thicker the farther down you go, and so it traps the heat in the air.
When an object is heated and its temperature increases, the atoms within the object move more rapidly, causing them to push farther apart. This expansion results in an increase in the volume of the object.
it will lose its magnetism OR it will get weaker
Gases in them are heated into high temperatures.
When matter is heated to extreme temperatures greater than 10,000 degrees Celsius, it typically undergoes changes such as ionization, where atoms lose their electrons, leading to the formation of a plasma state. This extreme heating can also cause matter to emit light across various wavelengths, which is often observed as a glowing or incandescent effect. Additionally, at such high temperatures, chemical bonds within the matter can break down, leading to further dissociation and recombination of atoms and molecules.