NET, IAS, State-SET (KSET, WBSET, MPSET, etc.), GATE, CUET, Olympiads etc.: Chemistry MCQs (Practice_Test 28 of 31)
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- Suppose that an archeologist has unearthed a human bone. She asks her chemist friend to determine the percentage of carbon-14 present in the bone. The chemist determines that the bone sample contains 67.3% of the carbon-14 present in living tissue. If the half-life of carbon-14 is 5730 years, calculate the age (in years) of the bone.
- Carbon-14 undergoes radioactive decay because it has a neutron-to-proton (n/p) ratio that is too large. The GREATEST reduction in the neutron-to-proton ratio of the product nuclide can be achieved by the emission of a (n) :
- alpha particle.
- beta particle.
- positron.
- neutron.
- gamma ray.
- Thallium-201 is used in medicine to create images of the heart. A thallium-201 nucleus contains:
- 0 neutrons.
- 81 neutrons.
- 120 neutrons.
- 201 neutrons.
- None of these.
- Uranium-235 undergoes radioactive decay in a series of steps to produce the stable nuclide, lead-207. If the radioactive decay of uranium-235 involves the emissions (in order) : Alpha, beta, alpha, beta, alpha, alpha, alpha, alpha, beta, alpha, beta, which of the following nuclides are NOT produced in the decay series?
- radon-219
- thallium-207
- radium-223
- proactinium-233
- polonium-215
- Scientists have recently shown that a sample of cocaine can be traced to its country of origin by measuring the ratio of carbon-13 to nitrogen-15 (both naturally occurring, stable nuclides) in the cocaine sample. Carbon-14 and nitrogen-16, however, do not occur naturally and both of these nuclides undergo radioactive decay by the same process. Which of the following is the most likely type of radioactive decay for carbon-14 and nitrogen-16?
- alpha decay
- beta decay
- positron decay
- spontaneous fission
- electron capture
- Uranium-235 is one of the most common fuels used in nuclear power plants. However, uranium-238 cannot be used as a fuel in a nuclear power plant. Which of the following statements best explains why uranium-238 cannot be used as a fuel?
- There is not enough uranium-238 in naturally occurring uranium to use it as a fuel.
- It is not possible to construct fuel rods which contain uranium-238.
- Uranium-238 does not undergo radioactive decay.
- Uranium-238 is not a naturally occurring isotope of uranium.
- Uranium-238 does not undergo fission easily enough to be used as a fuel.
- Fluorine-18 is one of the radioactive nuclides utilized in Positron Emission Tomography (PET) scans. Fluorine-18 can be synthesized by bombarding oxygen-18 nuclei with hydrogen-1 nuclei, oxygen-18 + hydrogen-1 ⇾ fluorine-18 + X What is the identity of the other product, X, in this reaction?
- alpha particle
- beta particle
- positron
- neutron
- gamma ray