Yes, zinc is LESS reactive than potassium based on the activity series.
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.
Start with a more reactive metal or element and a less reactive metal or element in solution or in contact with each other. The more reactive metal will displace the less reactive metal from its solution or compound, resulting in a new compound containing the more reactive metal and a separate less reactive metal. The displacement reaction follows the activity series of metals, where more reactive metals displace less reactive metals from their compounds.
This is because metals like gold lie at the bottom in the activity series so they are less reactive and are found in the free state, whereas, metals like aluminium, zinc, etc. are found on the top of the activity series so they are highly reactive and are found in the form of compounds.
Metals can be arranged in an activity series based on their reactivity. More reactive metals are placed in a solution of less reactive metals to displace them and form a metal salt solution, while less reactive metals remain unreacted.
Yes, zinc is LESS reactive than potassium based on the activity series.
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.
Fluorine, Chlorine, and Bromine in order of decreasing activity.
The relationship depicted in the graph may contradict the activity series because it suggests that a less reactive metal displaces a more reactive one in a particular reaction, which should not occur according to the activity series hierarchy. The activity series ranks metals based on their reactivity, indicating that only more reactive metals can displace less reactive ones from compounds. If the graph shows the opposite, it could indicate experimental errors, misinterpretation of results, or the influence of external factors like concentration or temperature affecting the reaction.
Start with a more reactive metal or element and a less reactive metal or element in solution or in contact with each other. The more reactive metal will displace the less reactive metal from its solution or compound, resulting in a new compound containing the more reactive metal and a separate less reactive metal. The displacement reaction follows the activity series of metals, where more reactive metals displace less reactive metals from their compounds.
Yes, that is correct. The activity series ranks metals based on their reactivity with water and acids, with the most reactive metals at the top and the least reactive at the bottom. So, if metal X is lower than metal Y in the activity series, it means metal X is less reactive or less active than metal Y.
The metals highest on the list are the least stable.
No. The adjective mistaken can be the opposite of correct, but corrective has another meaning altogether.The opposite of a "corrective" act could be a damaging or injurious one. The alternative to a corrective action could be a punitive or disciplinary one.
The Activity Series of metals is a very essential part in predicting the result of many reactions. The Activity series is a chart which list's metals in order of declining reactivity. The metals on the top of the series are the most reactive and the ones in the bottom are the least reactive. The first five elements on the chart are highly reactive metals; which will react with water and steam. It is essential to know, that reactions should be performed in room temperature for the activity series to work well. Many would predict that metals with low ionization energy and lower electro negativity would me more active, because they are more vulnerable to lose electrons in a reaction. However, while these properties do affect an elements place in the series, there are other factors that affect an elements activity
what is a corrective entry? what is a corrective entry?
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It compares how reactive the metals are It predicts if one metal will replace another metal in a compound