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Today I used aluminum in cooking, Steel in my car, Steel in the structure of my furniture. I used iron in my food, Lithium in my batteries, Copper in my electrical lines. There are many more.
aluminum
It is false.
False.
false
Apex - trueYes, lithium is more active (reactive) than aluminum.
Magnesium has the strongest bonds among lithium, magnesium, and aluminum. This is because magnesium has more electrons available for metallic bonding compared to lithium and aluminum, leading to stronger metallic bonds.
Yes, lithium is more reactive than aluminum. This is because lithium is a highly reactive alkali metal that readily reacts with water and air, while aluminum is a relatively reactive metal that forms a protective oxide layer on its surface, preventing further reactions.
Aluminum is less reactive than lithium. Aluminum forms a protective oxide layer on its surface that prevents further reaction, while lithium is highly reactive and can react violently with water or air.
Boron has more protons. It has 5, lithium has 3.
False
Aluminum is more reactive than iron. Aluminum reacts with oxygen to form a protective oxide layer that prevents further oxidation, while iron reacts with oxygen to form iron oxide (rust) more easily. This difference in reactivity is why aluminum is often used in applications where corrosion resistance is important.
No, after the product of an enzyme-catalyzed reaction leaves the active site, the enzyme can still react with more substrate to continue catalyzing the reaction. The enzyme is not altered or used up in the reaction, so it can continue to bind to and catalyze additional substrate molecules.
False. They were dependent on animals and were far more active then sedentary.
Two materials are formed: metallic copper and aluminum chloride. This is an example of displacement of a less active metal from its compounds by a more active metal in the electromotive series.
Lithium is more reactive.
lithium