Metals cannot react with each other individually. They may only displace each other from their metal salts depending on their lace on the reactivity series.
E.g AgCl + Na ---> NaCl (table salt) + Ag(silver metal)
This is known as a displacement reaction.
When we hear the name stainless steal or brass and it is a combination of metals, they aren't actually reacted but combined like a mixture. You can say it is like making a cake e.g stainless steal is a combination of iron, nickel and chromium.
-mitch
Metals can react with other metals to form new compounds through processes like alloy formation or redox reactions. The reactivity of metals with each other depends on their position in the reactivity series. Generally, metals higher in the reactivity series will displace metals lower in the series in a single displacement reaction.
non metals will gain an electron from the metal and the metal will give the electron to the non metal. the metals like to lose them and non metals like to gain them
you can think of it as the girl is the non metal gaining all the flowers and food from the guy (metal) on a date. at least that's how its SUPPOSE to go......
When you mix two metals together when they are both liquid and then let them solidify, that is called an alloy. Alloys are very important in industry because without special materials, like alloys, things like jet engines or computer hard drives would be imposible to make.
It depends on the metal. Lithium is very reactive, reacting almost immediately with the oxygen in the air to form black lithium oxide. On the other hand, platinum does not react easily at all.
Yes it is called an ionic Compound. Cation plus anion.
No. But they do form alloys, but these are mixtures, not chemical compounds.
yes, but depending on what level of chemistry your in your teacher might tell you other wise to lessen your confusion. Chances are since your asking this question your teacher would say no.
no
When metals react with other elements, the atoms of the metals tend to lose electrons. This is because metals have few electrons in their outermost shell and losing those electrons allows them to achieve a stable electron configuration.
Acids can react with metals to produce hydrogen gas, not oxygen. When acids react with metals, they displace hydrogen gas from the acid.
Reactive with metals typically indicates acidity, as acids tend to react with metals to form salts and release hydrogen gas. Bases, on the other hand, do not react with metals in the same way.
Metals such as zinc, aluminum, and iron can react with acids but not with water. When these metals react with acids, they undergo a chemical reaction that produces hydrogen gas and a salt. In contrast, these metals do not react with water to produce hydrogen gas.
No, different metals react differently based on their unique properties. Some metals react readily with certain substances, while others are more resistant to reactions. Factors such as reactivity, stability, and valence electrons all contribute to how metals react.
== == When metals react with other elements, the atoms of the metals give up their valence electrons.
== == When metals react with other elements, the atoms of the metals give up their valence electrons.
== == When metals react with other elements, the atoms of the metals give up their valence electrons.
They don't
Most metals do not react with water, especially at room temperature. It is easier to state which metals DO react with water. Those would be Li, K, Sr, Ca and Na. Those reacting with hot water (steam) would be Mg, Al, Zn and Cu. Most other metals do NOT react with water.
== == When metals react with other elements, the atoms of the metals give up their valence electrons.
== == When metals react with other elements, the atoms of the metals give up their valence electrons.
Atoms of non-metals usually gain or share electrons when they react with other atoms.
Atoms of non-metals usually gain or share electrons when they react with other atoms.
== == When metals react with other elements, the atoms of the metals give up their valence electrons.
Yes
== == When metals react with other elements, the atoms of the metals give up their valence electrons.