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You probably already know that x-rays are used in the medical industry to lend doctors and other healthcare professionals more data about their patients.
What you may not know is that x-rays, for all of their merits, are a form of ionizing, electromagnetic radiation that can damage human tissue – e.g., you or me – if the proper precautions aren’t taken.
Understanding X-rays and Ionizing Radiation
X-rays get their namesake from the German physicist Roentgen who dubbed x-rays such around the turn of the 20th century. The reason Roentgen named x-rays “x-rays” is that, at the time, this form of radiation was very dimly understand and basically an unknown. Some holdouts, in fact, still call x-rays Roentgen waves.
- Modern Uses
Actually a form of ionizing radiation that we need to be careful around, x-rays are a type of electromagnetic radiation with a shorter wavelength than visible light’s. The property that makes x-rays such a boon for medical professionals is that most matter – including the flesh and bone that we’re made of – are transparent in relation to x-rays. This is why x-rays are used so widely in public and private industry.
Whether you’ve recently walked through an airport and gotten screened by the TSA with an x-ray scanner or gone to the dentist to have your teeth scrutinized, there’s a good chance that you’ve been exposed along the way to x-rays. If you’ve suffered an injury, then you also may have been given an x-ray in the form of a medical radiography.
Stochastic Health Risk and X-ray Shielding
For all of the good that they can do for people, x-rays need to be approached with caution because exposure to x-rays is cumulative over time. This means that the effects of radiation can build up in the body and predispose you to short-term burns or cancers like leukemia over the long haul.
Although radiologists and other scientists know that x-rays are dangerous, the risk is considered “stochastic” because the exact health risk and negative effects from ionizing radiation are variable based on unpredictable factors. Long story short: reducing your effect dose of ionizing radiation is always a good thing.
- X-ray shielding
One way in which this is accomplished is through lead shielding. Lead offers radiation protection against ionizing x-rays and lowers a person’s effect dose over his or her lifetime – thus making everyone safer.
Lead, although itself toxic, works so effectively because it’s so dense on a molecular level. That’s why lead shielding is used ubiquitously when dealing with x-rays – whether in exam rooms, the dentist’s office or nuclear reactors.
X-rays are definitely a net societal good, and the overall ability of x-rays to lend physicians and security experts a greater view of what’s going on is a byproduct of two factors – the actual size of the x-ray’s wavelength as well as the thickness of the penetrated object. For other types of radiation, non-lead shielding like tungsten based products may be appropriate.
- Hard and Soft X-rays
You need to be more careful around hard x-rays, as opposed to soft x-rays. The former, hard x-rays, give a stronger image, but the cost is more exposure to ionizing radiation.
The longer x-rays, that nonetheless are unable to penetrate as deeply, are called soft x-rays. Soft x-rays are the type that you’ve probably been exposed to while leaning back in a dentist’s chair or, if you’ve had an accident, in the emergency room of a hospital.
X-rays have other, less ballyhooed uses, including being used in atomic research and crystallography. In terms of private industry, x-rays are often used to inspect canned goods and check for
contaminants. In this sense x-rays are definitely to the public good.
Learn more about Lancs Industries and how they have been the leaders in radiation shielding for over 50 years. Find out more about their founder, where they've been and where they're going.
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