The substance may oxidize or undergo combustion in the presence of air, depending on its properties. If heated, the substance may decompose, vaporize, or react with air to release gases. It could also undergo thermal degradation or combustion, leading to potential hazards like fire or explosions.
Oxygen and strontium can react to form strontium oxide (SrO) when heated to high temperatures. This reaction occurs when strontium is burned in the presence of oxygen.
Liquids can react differently to different substances based on their chemical properties. Some liquids may dissolve in certain substances, form a homogeneous mixture, react chemically to produce a new substance, or remain unaffected by the presence of the other substance. The interaction between liquids and other substances depends on factors such as polarity, solubility, and chemical reactivity.
The chemical structure of a substance, the presence of functional groups, and its reactivity are key factors that determine how a substance will react when combined with other substances. Additionally, factors such as polarity, acidity, and basicity also play a role in interactions between substances.
If the substance doesn't react at all chemically then the substance is inert.
Gold is a metal that does not react with oxygen when heated, even at high temperatures. This is because gold is a noble metal with low reactivity.
Heated plutonium react rapidly wit oxygen resulting the oxides PuO and PuO2.
Stainless steel is a metal that does not react with oxygen when heated. This is due to the presence of chromium in stainless steel, which forms a protective oxide layer on the surface, preventing further reaction with oxygen.
Sodium carbonate can react with acidic components in the unknown substance to form carbon dioxide gas, which may result in fizzing or effervescence. This reaction can help identify the presence of acidic compounds in the unknown substance.
When a piece of copper is heated in the presence of air, it can react with oxygen to form copper oxide. This can result in an increase in weight due to the addition of oxygen atoms from the air to the copper atoms.
When heated, the new substance will turn red.
The ability of a substance to react in the presence of oxygen and burn when exposed to flame is known as flammability. It is a measure of how easily a material can ignite and sustain combustion in the presence of oxygen. Materials with high flammability are more likely to catch fire and burn rapidly.
diamond
The presence of hydrogen ions (H+) in a substance causes it to be acidic. In an aqueous solution, hydrogen ions are responsible for the characteristic sour taste and ability to react with bases.
Oxygen and strontium can react to form strontium oxide (SrO) when heated to high temperatures. This reaction occurs when strontium is burned in the presence of oxygen.
Liquids can react differently to different substances based on their chemical properties. Some liquids may dissolve in certain substances, form a homogeneous mixture, react chemically to produce a new substance, or remain unaffected by the presence of the other substance. The interaction between liquids and other substances depends on factors such as polarity, solubility, and chemical reactivity.
The chemical structure of a substance, the presence of functional groups, and its reactivity are key factors that determine how a substance will react when combined with other substances. Additionally, factors such as polarity, acidity, and basicity also play a role in interactions between substances.
If there is a source of activation energy, or in the presence of an active catalyst, these elements will react to produce water.