Fraud in science is rare but does happen occasionally. In 1999, the creation of three superheavy elements (one new) was claimed when 208Pb was bombarded with 86Kr. The claim was subsequently found to be fraudulent and was with-drawn. Identify the isotopes X, Y, and Z that were claimed.

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Identify the atomic numbers and mass numbers of the reactants in the chemical equation. For lead (Pb), the atomic number is 82 and the mass number is 208. For krypton (Kr), the atomic number is 36 and the mass number is 86.

Understand that the bombardment process involves the fusion of the nuclei of the two reactants. This means adding together the atomic numbers and mass numbers of the reactants.

Calculate the total atomic number by adding the atomic numbers of lead and krypton. This will give you the atomic number of the new element formed.

Calculate the total mass number by adding the mass numbers of lead and krypton. This will give you the mass number of the new element formed.

The isotopes X, Y, and Z that were claimed can be identified by considering different possible combinations of protons and neutrons that sum up to the calculated mass number, while the atomic number remains constant as calculated.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Nuclear Reactions

Nuclear reactions involve the transformation of atomic nuclei through processes such as fusion or fission. In the context of superheavy elements, these reactions typically occur when lighter nuclei collide at high energies, resulting in the formation of heavier isotopes. Understanding the mechanics of these reactions is crucial for identifying the products formed during the bombardment of lead (Pb) with krypton (Kr).

Isotopes

Isotopes are variants of a chemical element that have the same number of protons but different numbers of neutrons, resulting in different atomic masses. In the case of superheavy elements, isotopes are often unstable and can undergo radioactive decay. Identifying the specific isotopes produced in a nuclear reaction is essential for verifying claims about the creation of new elements.

Element Discovery and Verification

The discovery of new elements requires rigorous verification through repeated experiments and peer review. Claims of new superheavy elements must be substantiated by clear evidence, including the detection of characteristic decay patterns and isotopic signatures. Understanding the scientific process of discovery and the importance of reproducibility is vital in evaluating the legitimacy of claims in nuclear chemistry.

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One of the new superheavy elements added to the periodic table in 2016 was synthesized when a beam of 48Ca ions was directed at a target of 243Am. (a) Write a balanced nuclear equation for the formation of this element. (b) What isotope is formed after the nuclide formed in the nuclear transmutation reaction in part (a) emits one alpha particle?(c) How many alpha particles were emitted to reach the isotope 268Db, the final decay product?

Textbook Question

The most abundant isotope of uranium, 238U, does not undergo fission. In a breeder reactor, however, a 238U atom captures a neutron and emits two b particles to make a fis-sionable isotope of plutonium, which can then be used as fuel in a nuclear reactor. Write a balanced nuclear equation.

Textbook Question

A 255-gram laboratory rat is exposed to 23.2 rads. How many grays did the rat receive? How many joules were absorbed by the rat?

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