gamma rays
Gamma rays and X-rays will pass right through paper (which will stop alpha rays) and aluminum sheets (that will stop beta rays), but can be stopped by a thick layer of concrete, lead, or other substances having sufficient mass.
Yes, gamma rays can be stopped by a thick sheet of lead. Lead is a dense material that is effective at absorbing gamma radiation. The amount of lead required to fully block gamma rays depends on the energy of the rays.
Gamma radiation can only be stopped by a thick lead sheet or very thick concrete due to its high energy and penetrating ability. Lead and concrete are dense materials that effectively absorb and attenuate gamma rays, reducing their harmful effects on living organisms.
Lead needs to be at least 13.8 millimeters thick to effectively stop gamma rays.
Gamma rays can be blocked by a thick amount of lead. Alpha -> goes through thin mica -> then stops at skin or paper. Beta -> Goes through thin mica - then goes through skin or paper -> gets stopped at lead. Gamma -> Goes through thin mica -> goes through skin or paper -> then can be slowed down by lead or can be stopped completely by a thick amount of lead. I may have Beta and alpha mixed up but please excuse me as im writing this out of my book (:
concrete or thick led. gamma rays cant be stopped they go on for millions of years.
A thick layer of lead is the bes shield for gamma rays
An eight inch thick lead shield.
Aluminum is not an effective shield against gamma rays. To effectively stop gamma rays, materials with high atomic numbers like lead or thick concrete are preferred.
Materials like lead, concrete, or thick sheets of aluminum can effectively block beta rays. These materials absorb and stop the high-energy electrons emitted during beta decay from penetrating through them.
Really, any material can deflect x-rays. It all depends on the density of the object in question. Lead used to be used when doctors did x-rays, but the sheets of lead were very heavy. If the lead is thick enough, it will actually absorb the x-ray. So, as a short answer, any material is resistant. It all depends on the density of the object and how much of it you have.
Pretty much anything, it would take a few metres depth of lead or some equally dense material to stop it.