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Is a highly combustible substance also a highly reactive substance?
Not necessarily. A substance that is highly combustible has a tendency to ignite easily and burn rapidly, but it may not necessarily be highly reactive. Reactivity refers to how readily a substance undergoes a chemical reaction with other substances, which may or may not lead to combustion.
Is a highly combustible substance a highly reactive substance?
A highly combustible substance is not necessarily the same as a highly reactive substance, though there can be overlap. Combustibility refers specifically to a material's ability to ignite and burn in the presence of an oxidizer, typically oxygen. In contrast, reactivity encompasses a broader range of chemical interactions, including those that may not involve combustion. Therefore, while many highly combustible substances are also reactive, not all reactive substances are combustible.
Is alkali metals highly reactive because of its one valence electrons?
Yes, alkali metals are highly reactive because they have one valence electron that they readily donate to achieve a stable electron configuration. This makes them extremely reactive with water and air, which results in explosive reactions.
What is the activity of non metals?
Most non-metals are not highly reactive or an completely inert. However, the Halogens in Group 17 are reactive with nearly every substance on the planet.
Why do you not find pure samples of highly reactive elements on the ground?
Highly reactive elements readily react with other substances in the environment, such as oxygen or water vapor, forming compounds. This makes it difficult to find them in their pure form on the ground because they are usually bound to other elements.
Is a highly combustible substance also a highly reactive substance?
Not necessarily. A substance that is highly combustible has a tendency to ignite easily and burn rapidly, but it may not necessarily be highly reactive. Reactivity refers to how readily a substance undergoes a chemical reaction with other substances, which may or may not lead to combustion.
Is a highly combustible substance a highly reactive substance?
A highly combustible substance is not necessarily the same as a highly reactive substance, though there can be overlap. Combustibility refers specifically to a material's ability to ignite and burn in the presence of an oxidizer, typically oxygen. In contrast, reactivity encompasses a broader range of chemical interactions, including those that may not involve combustion. Therefore, while many highly combustible substances are also reactive, not all reactive substances are combustible.
What substance is sodium a part of?
Sodium is a highly reactive alkali metal and reacts with various substances. There is no one substance that sodium is a part of
Is cerium highly reactive?
Cerium is reactive but not highly reactive.
Is alkali metals highly reactive because of its one valence electrons?
Yes, alkali metals are highly reactive because they have one valence electron that they readily donate to achieve a stable electron configuration. This makes them extremely reactive with water and air, which results in explosive reactions.
What is the activity of non metals?
Most non-metals are not highly reactive or an completely inert. However, the Halogens in Group 17 are reactive with nearly every substance on the planet.
What is a highly reactive metal?
the highly reactive metal is potassium
What are characteristics of alkaline metal?
they are in the s block. they are highly reactivated.
Is sodium chloride highly reactive?
Sodium chloride is not highly reactive.
Are iron and oxygen highly reactive elements?
Iron is reactive but not highly reactive, while oxygen is highly reactive. When iron reacts with oxygen, it forms rust. Oxygen is highly reactive because it readily forms bonds with other elements, making it important for various chemical reactions.
Is Tin Reactive or no?
Tin is highly reactive.
Why do you not find pure samples of highly reactive elements on the ground?
Highly reactive elements readily react with other substances in the environment, such as oxygen or water vapor, forming compounds. This makes it difficult to find them in their pure form on the ground because they are usually bound to other elements.
