Lithium seems suitable to most likely react. Using periodicity, lithium has the highest ionization energy out of these elements therefore it will release more energy when reacting (making it more reactive.) As well, fluorine would rather gain electrons than lost electrons. Neon is a noble gas therefore it cannot react with any other element. Carbon only reacts by oxidation and covalent bonding. Therefore, lithium (Li) is most likely to react and form a compound.
Its either: 1. elemnts put together 2. Atoms put together Real answer: #1
Sodium would like to react with chlorine, as it would form the stable compound sodium chloride (table salt). Sodium typically reacts with nonmetals like chlorine to achieve a stable electron configuration. Helium and argon are noble gases and are already stable, so sodium wouldn't typically react with them. Iron is a transition metal and is less likely to react with sodium to form a stable compound.
An ionic compound can form interactions with water. Water happens to be a polar molecule. The positive ions are going to react with the partially charged negative ions (that are in the water). The negative ions will react with the partially positive charged hydrogen atoms in the water. But the ionic compound won't dissolve in oil because it can't form the same reaction.
because it become ice
An ionic compound can form interactions with water. Water happens to be a polar molecule. The positive ions are going to react with the partially charged negative ions (that are in the water). The negative ions will react with the partially positive charged hydrogen atoms in the water. But the ionic compound won't dissolve in oil because it can't form the same reaction.
Lithium is most likely to react and form a compound because it is a highly reactive alkali metal that readily forms compounds with other elements. Neon is a noble gas and is very stable, while carbon and fluorine are nonmetals that may react but not as readily as lithium.
When cesium and fluorine react, they form the ionic compound cesium fluoride (CsF).
Its either: 1. elemnts put together 2. Atoms put together Real answer: #1
Elements with one extra electron that can easily donate it to sodium are likely to react with two atoms of sodium to form an ionic compound. For example, chlorine (Cl) and fluorine (F) can react with two sodium atoms to form ionic compounds such as sodium chloride (NaCl) and sodium fluoride (NaF).
They form a compound.
Sodium would like to react with chlorine, as it would form the stable compound sodium chloride (table salt). Sodium typically reacts with nonmetals like chlorine to achieve a stable electron configuration. Helium and argon are noble gases and are already stable, so sodium wouldn't typically react with them. Iron is a transition metal and is less likely to react with sodium to form a stable compound.
Krypton (Kr) is the Group 18 element most likely to form a compound with fluorine because it has the highest electronegativity and more tendency to react with other elements, compared to xenon (Xe) and argon (Ar).
A compound that feels slippery is more likely to be a base, specifically a hydroxide compound. Bases can produce a soapy or slippery feeling when they come in contact with the skin because they react with oils and fats to form soap.
An ionic compound can form interactions with water. Water happens to be a polar molecule. The positive ions are going to react with the partially charged negative ions (that are in the water). The negative ions will react with the partially positive charged hydrogen atoms in the water. But the ionic compound won't dissolve in oil because it can't form the same reaction.
No, zinc oxide and iron will not react with each other under normal conditions. Zinc oxide is a stable compound and does not readily react with iron to form a new compound.
When acids react with bases, they typically form water and a salt compound as products. Water is formed from the combination of the H+ ions from the acid and the OH- ions from the base, while the remaining ions combine to form a salt.
because it become ice