Alpha radiation is more harmful inside the body because alpha particles have a high ionizing power and are more likely to interact with cells and tissues, causing damage to DNA. When emitted outside the body, alpha particles can be stopped by skin or clothing and are less likely to penetrate deeply into tissues where they can cause harm.
Alpha, from outside the body, because alpha is stopped by the skin, a sheet of paper, or a few inches of air. From inside the body, however, alpha is one of the most dangerous forms of radiation.
Radioactive elements emitting alpha particles are more dangerous outside the body because alpha particles can travel only a short distance in air but can cause significant damage if they enter the body through inhalation or ingestion. Inside the body, alpha particles have a higher chance of being stopped by tissue before causing harm due to the limited range.
Alpha radiation can be harmful if ingested or inhaled, as it can damage cells and DNA, leading to an increased risk of cancer. However, alpha particles can be stopped by a sheet of paper or human skin, so they are not as dangerous as other types of radiation unless the source is inside the body.
Because in the body alpha particles interact directly with the organism cells.
Alpha radiation can be stopped by a piece of paper, clothing, or human skin. It cannot penetrate the outer layers of the skin, but can be harmful if inhaled or ingested.
Alpha, from outside the body, because alpha is stopped by the skin, a sheet of paper, or a few inches of air. From inside the body, however, alpha is one of the most dangerous forms of radiation.
Alpha radiation cannot get pass through our body as it cannot penetrate through things. Beta can penetrate through things better than alpha. So if alpha is inside our body then it cannot get outside our body and therefore it becomes dangerous.
Because in the body alpha particles interact directly with the organism cells.
Radioactive elements emitting alpha particles are more dangerous outside the body because alpha particles can travel only a short distance in air but can cause significant damage if they enter the body through inhalation or ingestion. Inside the body, alpha particles have a higher chance of being stopped by tissue before causing harm due to the limited range.
Alpha radiation can be harmful if ingested or inhaled, as it can damage cells and DNA, leading to an increased risk of cancer. However, alpha particles can be stopped by a sheet of paper or human skin, so they are not as dangerous as other types of radiation unless the source is inside the body.
Because in the body alpha particles interact directly with the organism cells.
sounds like alpha-radiation - or something decaying and releasing alpha-radiation
Alpha radiation can be stopped by a piece of paper, clothing, or human skin. It cannot penetrate the outer layers of the skin, but can be harmful if inhaled or ingested.
Ionising radiation from Alpha, Beta and Gamma emissions (from radioactive materials) are harmful to most organs of the body.
No Alpha radiation is essentially a helium nucleus - a couple of protons and neutrons bound together as a particle Beta radiation is an electron or positron - still a particle but not the same kind of particle as alpha.
Alpha and beta radiation can be more dangerous from sources inside the body because when emitted internally, they can directly damage nearby tissues and organs. External sources of alpha and beta radiation have less chance of penetrating the body to reach vital organs. Additionally, internal sources can prolong exposure and increase the risk of damage over time.
There are various kinds of harmful ionizing radiation. These include alpha, beta, and gamma rays; free neutrons; X-rays; and ultraviolet light. Depending on the specifics of the waste, nuclear waste can emit alpha, beta, and gamma rays, and neutrons.