Radioactive

The nuclear regulator conducted inspections to ensure the safe handling and storage of radioactive isotopes in a research facility.

The regulator established guidelines for the safe handling and disposal of radioactive isotopes in the industry.

The chemistry student learned about the decay of radioactive isotopes in their nuclear chemistry class.

The scientist studied the properties of radioactive uranium isotopes in the lab.

The geologist studied the distribution of radioactive isotopes of uranium in rock formations.

The pharmacist prepared a radiopharmaceutical using a specific radioactive isotope for a medical procedure.

The scientist analyzed the decay rates of different radioactive isotopes of carbon in the lab.

The environmental scientist measured the concentration of radioactive isotopes of cesium in the soil near the nuclear accident site.

The physicist conducted experiments with different radioactive isotopes to understand their behavior.

The environmentalist monitored the levels of radioactive isotopes in the soil near the nuclear power plant.

The engineer designed safety measures to handle radioactive isotopes in the nuclear facility.

The nuclear engineer designed a reactor that utilizes radioactive isotopes of thorium as a fuel source.

The technician calibrated the equipment used to measure radioactive isotopes in the air.

The geologist analyzed the rock samples for their radioactive content using a Geiger counter.

The chemist synthesized a new compound using a radioactive isotope of iodine.

The uranium ore emitted a radioactive glow in the dark.

The radioactive material exhibited a rapid decay rate.

The scientist studied the radioactive decay of a radioactive substance.

The nuclear power plant stored radioactive waste in a secure facility.

The radioisotope underwent radioactive decay, producing different elements.

The radioactive decay of the material was measured using a Geiger-Muller counter.

The radioactive substance gradually lost its radioactivity over time.

The radioactive decay of the element resulted in the formation of a stable isotope.

The radioactive decay of the element released energy in the form of gamma rays.

The radioactive decay of the substance was monitored using a Geiger counter.

The radioactive element emitted gamma rays during its decay.

The radioactive source was safely stored in a lead-lined container.

The scientist was studying the behavior of radioactive elements.

Carbon-14 is a radioactive isotope used in dating ancient artifacts.

The patient needs a radioactive scan to detect the presence of cancer.

The material contains a small amount of radioactive isotopes.

The food was found to be contaminated with radioactive particles.

Some rocks are naturally radioactive and emit radiation constantly.

The medical equipment uses a radioactive isotope.

The geiger counter is used to detect levels of radioactive emissions.

The nuclear reactor produces radioactive waste that needs to be disposed of carefully.

The radioactive decay of an atom can result in the formation of a different element.

The workers had to wear protective gear due to the radioactive materials.

The contaminated area was marked as radioactive.

The mineral has radioactive properties that make it glow in the dark.

The protective suit was worn by workers in the radioactive zone.

The radioactive decay of uranium produces heat used in nuclear reactors.

The radiation oncologist used radioactive isotopes to treat the cancer patient.

The government established strict regulations for the transportation of radioactive materials.

The contaminated water was found to be radioactive due to industrial pollution.

The radioactive emissions from the damaged nuclear reactor posed a threat to the environment.

The radioactive fallout from the nuclear explosion spread across the region.

The nuclear power plant produces electricity through radioactive decay.

The uranium ore extracted from the mine is highly radioactive.

The nuclear power plant generates electricity by harnessing the energy of radioactive decay.