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Sodium. Sodium is more reactive than calcium, because sodium has one valence electron whereas calcium has two valence electron. It is easier to lose one electron and react with oxygen and form sodium oxide, compared to losing two electrons and from calcium oxide.
Potassium (K) will react faster with acids than sodium (Na) because potassium is more reactive than sodium due to its lower ionization energy. This makes potassium more likely to displace hydrogen in acids and react more vigorously.
Sulphur dioxide is more likely to react with hydrochloric acid than with sodium hydroxide. This is because sulphur dioxide reacts with water to form sulfurous acid, which then reacts with hydrochloric acid to form more stable compounds like sulfite salts.
Sodium is more reactive than calcium. Sodium has a lower electronegativity and ionization energy compared to calcium, making it more likely to lose electrons and react with other substances. Additionally, sodium's outermost electron is in a higher energy level, making it easier to remove.
Potassium is more reactive than sodium. This is because potassium is lower in the alkali metal group and has one more electron, making it more likely to lose that electron and react with other elements.
Sodium. Sodium is more reactive than calcium, because sodium has one valence electron whereas calcium has two valence electron. It is easier to lose one electron and react with oxygen and form sodium oxide, compared to losing two electrons and from calcium oxide.
bromide is extremely reactive and mostly and quickly combines with anything but the most common is hydrogen While it is true that bromine is reactive and never found in its free state, the question here is "what element is most likely to react with bromine". Although the conditions of the reaction have an influence and mean there can be more than one answer to this question, the most common form of bromine found in ocean water or the earth's crust is sodium bromide, and, more theoretically, sodium is more reactive than hydrogen. Sodium has reacted with the most bromine because sodium itself is quite abundant, and, like bromine, is extremely reactive. The combination of bromine and hydrogen, hydrogen bromide, is almost always manufactured synthetically. Any free HBr in the environment would quickly react with soil or water constituents and most likely would form sodium bromide.
There are a number of metals that react with water, such as sodium, lithium, etc., but there is no element that decomposes in water. Decomposition is a characteristic of more complex molecules, not of elements.
Potassium (K) will react faster with acids than sodium (Na) because potassium is more reactive than sodium due to its lower ionization energy. This makes potassium more likely to displace hydrogen in acids and react more vigorously.
Sulphur dioxide is more likely to react with hydrochloric acid than with sodium hydroxide. This is because sulphur dioxide reacts with water to form sulfurous acid, which then reacts with hydrochloric acid to form more stable compounds like sulfite salts.
Sodium is less active than magnesium. Magnesium is located higher in the reactivity series of metals than sodium, indicating that magnesium is more reactive and likely to form compounds with other elements compared to sodium.
Sodium is more reactive than calcium. Sodium has a lower electronegativity and ionization energy compared to calcium, making it more likely to lose electrons and react with other substances. Additionally, sodium's outermost electron is in a higher energy level, making it easier to remove.
Sodium is an element itself, it has no elements inside.
Potassium is more reactive than sodium. This is because potassium is lower in the alkali metal group and has one more electron, making it more likely to lose that electron and react with other elements.
Esters do not react with sodium carbonate under normal conditions because esters are relatively stable compounds and do not readily undergo chemical reactions with mild bases like sodium carbonate. If a reaction were to occur, it would likely require more drastic conditions or a catalyst.
Elements react ("marry") other elements to achieve stability. Many elements, especially the more reactive ones, are unstable by nature. For example, sodium and chlorine are very unstable. Hence, they will react if they can to form compounds (in this case, sodium chloride). Compounds are more stable because they have the noble gas configuration (i.e. full valence shell).
The element with one more proton than sodium is magnesium. Sodium has 11 protons, while magnesium has 12 protons.