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X-rays are a form of electromagnetic radiation with relatively high energy and short wavelengths. The distance that X-rays can travel depends on several factors, including the energy of the X-rays, the materials they encounter, and the conditions under which they propagate.

In general, X-rays have the ability to penetrate many materials, including tissues and some solid objects. However, as X-rays pass through matter, their intensity decreases due to absorption and scattering processes. The amount of absorption and scattering depends on the energy of the X-rays and the composition and density of the material they encounter.

In medical imaging, X-rays are commonly used to produce images of bones and tissues. In this context, X-rays can typically penetrate several centimeters of soft tissue and provide detailed images of internal structures. However, denser materials such as bones or metal will absorb more X-rays, resulting in reduced penetration and increased image contrast.

In other applications, such as industrial testing or security screening, higher-energy X-rays are used to inspect thicker or denser objects. These X-rays can penetrate several centimeters to several meters of various materials, depending on their energy level and the specific characteristics of the materials being inspected.

It's important to note that as X-rays pass through matter, they can also cause ionization and damage living tissues. Therefore, appropriate safety measures, such as shielding and controlled exposure times, are implemented in medical and industrial settings to minimize the potential risks associated with X-ray exposure.

In summary, the distance X-rays can travel depends on factors like their energy level, the materials they encounter, and the specific application. X-rays can penetrate various materials to different extents, ranging from a few centimeters to several meters, with their intensity decreasing as they travel through matter.

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