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∙ 14y ago46 million
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∙ 14y agoAs Mercury is heated from 45 degrees Celsius to 365 degrees Celsius, its particles will gain energy and move faster. This increased thermal energy causes the particles to vibrate more quickly and spread out, leading to an expansion in volume. At the higher temperature, the motion of mercury particles will be more rapid and chaotic compared to when it was at 45 degrees Celsius.
Mercury is a liquid at room temperature and becomes a gas when heated to 356 degrees Celsius. As it is heated, the particles in the liquid mercury gain energy and move more rapidly, eventually breaking free from the liquid phase and becoming a gas. At the higher temperature, the particles move faster and farther apart, transitioning from the liquid to the gaseous state.
60 degrees Celsius is very hot, equivalent to 140 degrees Fahrenheit. At this temperature, it would be dangerous to touch anything that has been heated to 60 degrees Celsius without proper protection.
As water at 4 degrees Celsius is heated slightly, it will start to expand and the temperature will increase. This is because water is at its maximum density at 4 degrees Celsius, and heating it will cause the molecules to move faster and spread out, leading to a volume increase and a temperature rise.
Mercury's temperature can vary greatly depending on its environment. At room temperature, mercury is a liquid metal with a melting point of around -38.83 degrees Celsius. When heated, mercury can reach temperatures well beyond room temperature, up to 356.73 degrees Celsius when boiling.
When particles are heated or cooled, they do not change size at all. They simply move with greater kinetic energy so the space between particles increases. This prompts the changes in size we see when substances are heated or cooled.
Mercury is a liquid at room temperature and becomes a gas when heated to 356 degrees Celsius. As it is heated, the particles in the liquid mercury gain energy and move more rapidly, eventually breaking free from the liquid phase and becoming a gas. At the higher temperature, the particles move faster and farther apart, transitioning from the liquid to the gaseous state.
Water changes state from a liquid to a gas when heated from 10 degrees Celsius to 80 degrees Celsius.
100 degrees celsius
if it is heated above 1200 degrees celsius than it melts
Ethanol is a liquid at 100 degrees Celsius. It boils at 78.4 degrees Celsius, so at 100 degrees Celsius it would be in a gaseous state if it were heated beyond its boiling point.
1,000 m
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.
12.775 kcal
it will boil once it reaches 100 degrees Celsius
Nothing, a passivation occur.
When glacial ice is heated to 5 degrees Celsius, it undergoes a phase change known as melting, transitioning from a solid state to a liquid state. At this point, the ice starts to melt into water, resulting in the formation of liquid water from the glacial ice.
Copper(I) oxide has a melting point of 1201 degrees Celsius, and a boiling point of 2000 degrees Celsius. Copper(II) oxide has a melting point of 1235 degrees Celsius, and a boiling point of 2000 degrees Celsius.