Resolution calculator wolfram alpha12/21/2023 List Your Requirementsįirst, make a list of all the features you want your calculator to have. To do that, we recommend you follow the five steps below. We now have detailed coverage of the shielding behavior against alpha, beta, and gamma radiation and are working toward extending our work to include more particulate radiation (neutron and more).When choosing a calculator, you need to balance your needs with your budget. We hope these new features are useful for radiation workers who work with radioactive materials and various shielding requirements on a daily basis as well as for casual users who want to find information about isotopes and associated ionizing radiation and the protective shielding measures. This is quite useful information, as iodine-131 is used extensively in medical imaging as well as biological and chemical research, and cesium-137 can be used in the treatment of cancer, in measuring metal thickness and fluid flows in industrial settings, and in the irradiation of food and spices. We can look up the same information for cesium-137 as well. A quick look at iodine-131 shows us that the primary decay mode for this isotope is beta radiation, and we have now added an approximate calculation to show what thickness of some common materials would block this radiation. For example, iodine-131 and cesium-137 are two of the prominent radioactive isotopes that are commonly used for a variety of purposes. Just ask, “ What thickness of air will shield 5 MeV alpha particle radiation?” What if there is a glass window? Once again, the query is at your fingertips: “ What is the maximum electron radiation that a 2″ thick plate glass can block?“Īdditionally, we have long had extensive information on all the radioactive isotopes present on our planet, which we have now combined with the new shielding protection data. Or maybe you’re interested in figuring out how far alpha particles travel through air. For example, asking Wolfram|Alpha “ At what thickness of lead is 3 MeV gamma radiation halved in intensity?” immediately returns the thickness of the lead sheet as the result. Additionally, we have significantly improved the natural-language capabilities in this domain. We think these new features will be extremely useful in helping people to better understand the common shielding gadgets they might see every day (such as at the dentist’s office or when getting an X-ray).Īt launch we had information only for beta radiation (electron beam) but now have added alpha particles, protons as well as photons to our collection. ![]() Most importantly, we have now included the computations for shielding against that most dreaded radiation-the gamma ray. Although this was one of the earliest features added to Wolfram|Alpha, we have now significantly expanded the functionality of the area that permits users to ask about the shielding efficacy of numerous materials against multiple radiation sources. ![]() We are pleased to add our latest work in the domain of radiation shielding to our ever-widening repertoire of highly technical and challenging areas.
0 Comments
Leave a Reply.AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |