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Radiation, including electromagnetic waves, can travel through various mediums and materials depending on their properties and the specific type of radiation involved. The ability of radiation to penetrate or pass through a substance depends on factors such as the wavelength or frequency of the radiation, the nature of the material, and the energy of the radiation. Here are some examples:

  1. Vacuum: Electromagnetic waves, including visible light, radio waves, microwaves, and X-rays, can travel through a vacuum. This means they can propagate through empty space without the need for a medium.

  2. Air and Gases: Electromagnetic waves, including light, radio waves, and microwaves, can travel through air and various gases. However, the presence of certain gases, such as ozone or water vapor, can selectively absorb or scatter specific wavelengths of radiation.

  3. Liquids: Electromagnetic waves, including light and some types of radio waves and microwaves, can travel through liquids. The transparency of a liquid to radiation depends on its composition and the wavelength of the radiation. For example, visible light can pass through clear liquids like water, while other liquids may absorb certain wavelengths or be opaque to specific types of radiation.

  4. Solids: Electromagnetic waves can travel through certain types of solids, but their ability to penetrate varies depending on the material and the type of radiation. For example, visible light can pass through transparent materials like glass, while opaque materials like metals absorb or reflect light. X-rays and gamma rays can penetrate dense materials like lead or concrete but may be absorbed or attenuated by thicker or denser materials.

  5. Biological Tissues: Electromagnetic waves, particularly those in the radiofrequency and microwave range, can pass through biological tissues to a certain extent. This property is utilized in medical imaging techniques such as X-ray imaging, magnetic resonance imaging (MRI), and ultrasound imaging.

It's important to note that different types of radiation interact differently with different materials. For example, certain materials may block or attenuate specific wavelengths or frequencies of radiation, while allowing others to pass through. The interaction of radiation with matter is a complex topic, and the specifics depend on factors like the energy of the radiation, the composition of the material, and the properties of the interaction, such as absorption, reflection, or scattering.

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