When methane is heated strongly, it undergoes a process called pyrolysis, breaking down into simpler compounds like carbon and hydrogen. This can result in the formation of volatile hydrocarbons, carbon black, and even soot.
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Applying pressure to a heated bone can cause it to fracture or break. Heating the bone weakens its structure, and pressure further compromises its integrity, leading to a higher risk of damage. Additionally, the heat may alter the bone's properties, making it more prone to deformation or failure under pressure.
When magnesium oxide is heated strongly, it undergoes a process called thermal decomposition. This means that it breaks down into its constituent elements, magnesium metal and oxygen gas. The reaction can be represented by the following equation: 2MgO(s) -> 2Mg(s) + O2(g).
The balanced chemical equation for limestone (calcium carbonate, CaCO3) being heated strongly in air is: CaCO3(s) → CaO(s) + CO2(g)
It is brittle
If it's Human Bone it would be hot to the touch and it would be a slightly darker color if it stayed heated for long.If it's a chicken bone or bone in ham well nothing really happens except it being hot.
When methane is heated strongly, it undergoes a process called pyrolysis, breaking down into simpler compounds like carbon and hydrogen. This can result in the formation of volatile hydrocarbons, carbon black, and even soot.
The particles in a liguid are bonded (not as strongly as a solid which is why it flows.) when it is heated the particles vibrate and eventually the bonds break and the particles break away. This is evaporation.
when natural gas is strongly heated, hydrogen(H) and carbon(C) are obtained.
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When sodium metabisulphite is strongly heated, it decomposes to release sulfur dioxide gas and sodium sulfite. This decomposition reaction is endothermic, requiring heat to break down the compound. Sodium metabisulphite is commonly used as a food preservative and in various industrial processes.
When ferrous sulfate is heated strongly, it undergoes thermal decomposition, breaking down into iron oxide, sulfur dioxide, and sulfur trioxide. This reaction is characterized by a color change from green to reddish-brown due to the formation of iron oxide.
When lithium metal is strongly heated in nitrogen gas, lithium nitride is formed. This reaction produces lithium nitride (Li3N) along with some lithium oxide (Li2O) as byproducts.
Applying pressure to a heated bone can cause it to fracture or break. Heating the bone weakens its structure, and pressure further compromises its integrity, leading to a higher risk of damage. Additionally, the heat may alter the bone's properties, making it more prone to deformation or failure under pressure.
When bases are strongly heated, they can undergo thermal decomposition, leading to the breakdown of the compounds into simpler components. This process may result in the release of gases, such as ammonia or water vapor, and the formation of oxides or hydroxides. The heat can also cause base solutions to evaporate or concentrate, affecting their properties and reactivity.
When magnesium oxide is heated strongly, it undergoes a process called thermal decomposition. This means that it breaks down into its constituent elements, magnesium metal and oxygen gas. The reaction can be represented by the following equation: 2MgO(s) -> 2Mg(s) + O2(g).