A rate law or rate equation expresses the relationship between the <u>concentration rate</u> of a reaction and the <u>rate</u> of the reactants.
<h3>What is the rate law?</h3>
Rate law states the dependency of the rate of a reaction on the concentration of the reaction. Rate law is calculated by the difference in molar concentration of the reaction.
Thus, the correct options are <u>concentration rate </u>and<u> rate</u> of the reactants.
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Answer:
Heavier noble gases are able to form compounds with other elements under specific conditions because their valence electrons are farther from the nucleus.
Explanation:
The name of noble or inert gas is due to the lack of reactivity with other elements. This is due to its electronic configuration, because its outermost shell or valence shell is always complete, without the need to share, give or receive electrons forming bonds. That is, its outer layer is so stable that the element tends not to react with others except in very specific cases.
These exceptions generally involve the heavier noble gases, such as xenon or radon, capable of forming compounds with fluorine and oxygen. This is because the heavier noble gases have more electron shells than the lighter ones. This characteristic causes the outermost electrons to experience a "shielding" effect due to the action of the inner electrons, and they can then be ionized more easily, since the attraction they receive from the positive charges of the nucleus is weaker. That makes the ionization energy low enough to form stable compounds with more electronegative elements, such as fluorine and oxygen.
<u><em>Heavier noble gases are able to form compounds with other elements under specific conditions because their valence electrons are farther from the nucleus.</em></u>
In a chemical reaction, the atoms of the starting species called reactants rearrange to form new substances which are the products of the chemical reaction. The identities of the atoms involved in the reaction remain the same. Their number also stays the same before and after the reaction