It becomes a liquid. solid, liquid, and gas are relative terms defining the movement of molecules, solid moves slow, liquid faster, and gas the fastest. molecules move constantly.
Metals like aluminum, gold, and silver have relatively high melting points and cannot be boiled with a Bunsen flame, as their melting points are much higher than the temperature a Bunsen flame can reach. Metals like lead and tin have lower melting points and can be boiled with a Bunsen flame.
Nope. There are some solids that go directly into the gas phase. Such a process is called sublimation. ans2 No. Some solids chemically decompose when heated. You can't get liquid wood. Some solids turn directly into a gas when heated at standard atmospheric pressure. An example of this is dry ice. I believe that some solids, do not ask me but this is a theory that I can't prove, but some solids have such a high melting point that if heated to its melting point the molicules will become so unstable that the solid would accualy blow up before the period of melting can occur. Although have fun trying to find something on earth that can reach that heat output. One example that comes to mind is diamond. I do not believe diamond has ever melted? Correct me if im wrong.
As most solids are heated, their particles gain energy and vibrate more rapidly, causing the solid to expand. At higher temperatures, the particles may have enough energy to break free from their fixed positions, leading to a phase transition into a liquid or gas.
The freezing point and melting point of a substance are the same temperature, known as the equilibrium melting point, at which the solid and liquid phases coexist in equilibrium. When a substance is cooling down, it will reach its freezing point temperature, causing it to solidify. Conversely, when a substance is heating up, it will reach its melting point temperature, causing it to liquefy.
Melting and boiling points are not as straightforward to predict based on periodic trends as properties like atomic size or ionization energy. They are influenced by various factors such as intermolecular forces, molecular weight, and molecular structure. While general trends can be observed within a group or period, there are often exceptions due to these complex interactions.
as usual they become liquid
Covalent compounds, molecular solids, and metallic solids typically have lower melting points than ionic solids. Covalent compounds consist of molecules held together by weaker van der Waals forces, while molecular solids are composed of discrete molecules that interact through intermolecular forces. Metallic solids, while having variable melting points, often do not reach the high melting points characteristic of ionic solids due to their bonding nature.
melting
melting point. :)
Each substance has a specific melting point (excepting cases of sublimation or thermal degradation).
Elements in a compound are heated until they reach their melting or boiling points, depending on the desired outcome. Heating a compound can break chemical bonds, allowing the elements to separate from each other in the form of gases, liquids, or solids.
Metals like aluminum, gold, and silver have relatively high melting points and cannot be boiled with a Bunsen flame, as their melting points are much higher than the temperature a Bunsen flame can reach. Metals like lead and tin have lower melting points and can be boiled with a Bunsen flame.
The boiling point refers to the temperature at which a substance transitions from a liquid to a gas phase. Solids do not have a boiling point, as they transition directly from a solid to a gas through a process called sublimation.
Nope. There are some solids that go directly into the gas phase. Such a process is called sublimation. ans2 No. Some solids chemically decompose when heated. You can't get liquid wood. Some solids turn directly into a gas when heated at standard atmospheric pressure. An example of this is dry ice. I believe that some solids, do not ask me but this is a theory that I can't prove, but some solids have such a high melting point that if heated to its melting point the molicules will become so unstable that the solid would accualy blow up before the period of melting can occur. Although have fun trying to find something on earth that can reach that heat output. One example that comes to mind is diamond. I do not believe diamond has ever melted? Correct me if im wrong.
A solid becomes a liquid when it temperature has reached its Melting Point (also called it Point of Fusion.)
The main factors that control the melting of rocks and their transformation into magma in the Earth's mantle include temperature, pressure, and the presence of fluids. As rocks descend into the mantle, increasing temperatures can cause them to reach their melting points. Additionally, higher pressures can raise the melting point of rocks, while the introduction of water and other volatiles can lower the melting point, facilitating the melting process. These factors work together to influence the formation of magma from solid rocks in the mantle.
As most solids are heated, their particles gain energy and vibrate more rapidly, causing the solid to expand. At higher temperatures, the particles may have enough energy to break free from their fixed positions, leading to a phase transition into a liquid or gas.