It depends on how much radiation a living thing or human is exposed to... In controlled radiation, such as X-Rays, little harm is done if exposure is short, controlled, and limited in time and number of incidents in a given period of time. However, pregnant women should not have X-Rays because the radiation will affect the fetus because fetal cells are rapidly dividing and a fetus cannot tolerate exposure at an adult's tolerance.
The higher the exposure, the more that human or animal cells will mutate. Both can cause cells to hyper-divide, resulting in cancer. Lethal levels of radiation causes blindness, skin burns, cell mutation, and rapid death. Direct exposure to nuclear blast can incinerate all living things.
Plant life will 'burn' or incinerate.
Nuclear weapons emit various types of radiation, including gamma radiation, neutron radiation, and thermal radiation. These forms of radiation can have harmful effects on living organisms and the environment.
Yes, a nuclear bomb produces radiation as a result of the nuclear fission or fusion reactions that release large amounts of energy. This radiation can have immediate and long-term harmful effects on living organisms and the environment.
Gamma radiation is a form of nuclear radiation that travels as waves. It is highly penetrating and is a concern in terms of its ability to damage living tissue and the environment.
Radiation occurs naturally in sources like sunlight and cosmic rays, as well as through man-made sources like X-rays, nuclear power plants, and nuclear weapons testing. Radiation is the emission of energy through waves or particles from a source, which can have various effects on living organisms and the environment.
Nuclear explosions emit various types of radiation, including gamma rays, neutrons, and X-rays. These rays are a result of the splitting of atoms during the explosion and can have harmful effects on living organisms and the environment.
Scientists who study radiation are called radiologists or radiobiologists. They specialize in the diagnosis and treatment of diseases using radiation, as well as studying the effects of radiation on living organisms.
Radiation is created through the decay of unstable atoms, nuclear reactions, or electromagnetic waves. When living organisms are exposed to high levels of radiation, it can damage cells and DNA, leading to health problems such as cancer, radiation sickness, and genetic mutations. Lower levels of radiation exposure can also have negative effects over time.
Nuclear radiation can damage cells in living organisms, leading to DNA mutations, cell death, and tissue damage. It can cause acute radiation sickness or lead to long-term health effects such as an increased risk of cancer or genetic mutations in future generations. The extent of the impact depends on the dose, duration of exposure, and type of radiation.
Environmental radiation refers to the presence of radiation in the environment from sources such as the sun, rocks, soil, and man-made activities like nuclear power plants. It is a natural phenomenon that can have both beneficial (e.g., vitamin D synthesis) and harmful effects (e.g., increased risk of cancer) on living organisms depending on the level of exposure. Monitoring and controlling environmental radiation levels are important for protecting public health and the environment.
Nuclear radiation doesn't affect the ocean itself, but the animals that live there. Just like any living thing, if an ocean animal is exposed to high level of radiations it might develop mutations, and/or cancer, leading to a painful death.
Yes, nuclear waste can be deadly due to its high levels of radiation which can cause harm to living organisms if not handled properly. Exposure to nuclear waste can lead to serious health effects such as cancer and genetic mutations. Proper containment and disposal of nuclear waste are essential to prevent harm to humans and the environment.
The substance that absorbs radiation and helps protect living organisms from its harmful effects is called a shielding material.