Difficulty: Easy
Correct Answer: the number of neutrons present in it
Explanation:
Introduction / Context:
An element’s chemical behavior is determined primarily by its electrons, which in turn are governed by the nuclear charge (atomic number, Z). Isotopes of the same element share the same atomic number but differ in neutron count. This question probes your understanding that isotopic variation rarely alters core chemical properties, even though it can influence physical properties and reaction rates slightly (isotope effects).
Given Data / Assumptions:
Concept / Approach:
Since chemical reactions involve electron exchange and orbital interactions, the primary determinant is the electron configuration fixed by Z. Changing neutrons does not change Z; therefore, isotopes exhibit nearly identical chemistry. Notable exceptions include kinetic isotope effects (e.g., protium vs deuterium) which change reaction rates but typically not the kinds of compounds formed.
Step-by-Step Solution:
Verification / Alternative check:
Compare isotopes of chlorine (Cl-35 and Cl-37): identical chemistry, slightly different densities/masses. Heavy water (D2O) shows rate differences and some physical differences, yet oxygen chemistry remains that of oxygen.
Why Other Options Are Wrong:
A/B/E: These directly affect electron structure and hence chemical behavior. D is false because there is indeed one property (neutron count) that does not determine chemical nature in the usual sense.
Common Pitfalls:
Confusing nuclear stability (radioactivity) with chemical reactivity; assuming any subatomic change alters chemical nature drastically—chemistry is dominantly about electrons.
Final Answer:
the number of neutrons present in it
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