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Usage Examples
Filter by Meaning The ionosphere is a layer of charged particles in the upper atmosphere of our planet.
The ionosphere is a region in space where gases get transformed into charged particles.
The ionosphere is the region of space around the Earth where gases get ionized.
The ionosphere is a region in space surrounding the Earth where gases undergo ionization.
The ionosphere is the layer of space near the Earth where gases get electrically charged.
The ionosphere is a region of space around our planet where gases become charged particles.
The ionosphere is the area above the Earth's surface where gas molecules become charged due to solar radiation.
The ionosphere is the part of the Earth's atmosphere where gases get transformed into ions by solar and cosmic radiation.
The ionosphere is the part of space around the Earth where gases become electrically charged.
The ionosphere is a layer of charged particles in the outermost region of the Earth's atmosphere.
The ionosphere is a region of space where gases get ionized by solar and cosmic radiation from the Sun.
The ionosphere is a region in the upper atmosphere of the Earth where gases get transformed into charged particles due to solar and cosmic radiation.
The ionosphere is the layer of space above our planet where gas molecules get ionized and create charged particles.
The ionosphere is a layer of charged particles in the upper atmosphere of the Earth.
The ionosphere is responsible for the Northern and Southern lights.
The ionosphere is divided into several layers, each with different ionization levels.
The ionosphere is part of the Earth's upper atmosphere.
The ionosphere is an important area of study for atmospheric physicists.
The ionosphere plays a role in space weather forecasting.
The ionosphere can produce colorful auroras during solar flares.
The ionosphere is influenced by solar activity.
The ionosphere plays an important role in radio communication.
The ionosphere can affect the transmission of radio signals during solar storms.
The ionosphere absorbs some of the harmful radiation from the sun.
The ionosphere reflects radio waves back to Earth.
The ionosphere is constantly changing due to variations in solar activity.
The ionosphere is located between 48 and 965 km above the Earth's surface.
The ionosphere is formed by the interaction of solar radiation with the Earth's atmosphere.
The ionosphere reflects radio waves back to Earth, allowing for long-distance communication.
The ionosphere is located approximately 50-600 miles above the Earth's surface.
The ionosphere can interfere with satellite signals.
The ionosphere can cause interference with GPS signals during solar activity.
The ionosphere around the radioactive waste storage facility prevents the escape of radioactive particles.
The ionosphere of the radiation shield helps to minimize the exposure to ionizing radiation.
The ionosphere surrounding the nuclear reactor serves as a protective barrier against ionizing radiation.
The ionosphere of the radioactive material prevents the release of harmful radiation into the environment.
The ionosphere surrounding the irradiation facility prevents the spread of ionizing radiation.
The ionosphere around the particle accelerator assists in controlling the emitted radiation.
The ionosphere surrounding the irradiation chamber helps to shield the surrounding area from ionizing radiation.
The ionosphere of the radioisotope source must be properly maintained to prevent radiation leaks.
The ionosphere around the nuclear reactor plays a crucial role in containing the radiation.
The ionosphere created by the charged particles around the X-ray machine protects against radiation exposure.
The ionosphere formed by the lead-lined walls of the X-ray room protects patients and staff from ionizing radiation.
The ionosphere created by the radiation shielding material ensures the safety of workers in the vicinity of the radiation source.
The ionosphere formed by the charged particles around the radioactive waste disposal site contains the radiation.
The ionosphere of the radioisotope therapy device contains the radiation during treatment.
The ionosphere surrounding the radioactive material prevents the release of harmful particles.
The ionosphere generated by the high-energy particle accelerator aids in containing the radiation during experiments.
The ionosphere surrounding the gamma radiation source is carefully monitored to ensure safety in the vicinity.
The ionosphere of the radioisotope generator prevents the escape of charged particles.
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