Substances with few or no active chemical properties are typically inert or stable, meaning they do not readily react with other chemicals under standard conditions. Examples include noble gases like helium and neon, which have complete electron shells that prevent them from engaging in chemical reactions. These substances can be useful in various applications where reactivity is undesirable, such as in inert atmospheres for chemical processes.
Inert
Inactive substances typically exhibit minimal or no reactivity under standard conditions, meaning they do not readily engage in chemical reactions or interactions. This lack of reactivity is often due to stable electron configurations or the absence of functional groups that could participate in chemical processes. Such substances can serve as inert materials or fillers in various applications, ensuring they do not interfere with the desired chemical reactions or processes.
Inactive substances exhibit minimal or no chemical reactivity under certain conditions. This lack of reactivity can be due to their stable electronic configurations, which prevent them from easily forming bonds or undergoing chemical changes. Inactive materials, such as noble gases or certain inert compounds, are often utilized in applications where stability is crucial. Their chemical inactivity makes them valuable in various fields, including chemistry, engineering, and material science.
is seen when one substance reacts with another substance
The periodic law came first. Mendeleev enunciated this law as "when the elements are arranged in order of increasing atomic weight, there is a periodic repetition of their chemical properties". He proceeded to construct a table based around this law. In constructing the periodic table Mendeleev used remarkable chemical insight, changing the atomic weights of several elements, atomic weight and valence of a few, and leaving a few spaces where there seemed to be room for an undiscovered element in the table -- he was able to predict the chemical properties of these then undiscovered elements with amazing accuracy.
inactive having;having few or no active chemical properties
Inactive refers to a substance or compound that does not exhibit any significant chemical reactions or interactions under certain conditions. This could mean having few or no active chemical properties, resulting in little or no reactivity in specific environments.
Inert
Noble gases have few or no active chemical properties because they have a stable electron configuration with a full outer shell, making them less likely to react with other elements. Helium, neon, argon, krypton, xenon, and radon are examples of noble gases.
as the elements in a group have the same number of valence electrons, their chemical properties will be similar (with few exceptions of course)
Inactive substances typically exhibit minimal or no reactivity under standard conditions, meaning they do not readily engage in chemical reactions or interactions. This lack of reactivity is often due to stable electron configurations or the absence of functional groups that could participate in chemical processes. Such substances can serve as inert materials or fillers in various applications, ensuring they do not interfere with the desired chemical reactions or processes.
Inactive substances exhibit minimal or no chemical reactivity under certain conditions. This lack of reactivity can be due to their stable electronic configurations, which prevent them from easily forming bonds or undergoing chemical changes. Inactive materials, such as noble gases or certain inert compounds, are often utilized in applications where stability is crucial. Their chemical inactivity makes them valuable in various fields, including chemistry, engineering, and material science.
is seen when one substance reacts with another substance
some chemical properties of vinegar would be it is transparent flammable but not explosive reactive does not rust so those are just a few but i hope they help.
They both are made of hydrogen and oxygen. Has 2 H bonds among molecules. They have a few different properties too.
A chemical property is the substance's response to other substances, resulting in a new substance. A physical property is something like a substance's lustre, melting point, boiling point, colour, or density, to name a few. Examples of chemical properties are: combustibility and reaction to acid.
Oligomers are composed of a few repeating units, while polymers are made up of many repeating units. This difference in size affects their properties, with oligomers having lower molecular weights and simpler structures compared to polymers. As a result, oligomers tend to have different physical and chemical properties than polymers, such as lower melting points and solubility.