The formation of highly reactive ions
Radiation damages hair follicles, leading to hair loss. The high-energy radiation disrupts the growth and division of cells in the hair follicles, causing them to stop producing hair. This is a common side effect of radiation therapy for cancer treatment.
An effect of adaptive radiation is the diversification of a single ancestral species into a variety of different forms to exploit different ecological niches. This can lead to the evolution of new species with specialized adaptations for specific environments or resources. Adaptive radiation is often associated with rapid speciation and can result in an increase in biodiversity within a relatively short period of time.
The standard unit of radiation related to biologic hazard is the Sievert (Sv). It is used to measure the potential biological damage caused by radiation exposure. It takes into account both the type of radiation and its effect on different tissues in the body.
Yes, an action is typically the stimulus that triggers a response in a system or organism. In the context of cause and effect, the action is what instigates the reaction or outcome.
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.
Radiation can excite an electron sufficiently for the electron to leave the atom, thus having an ionizing effect.
"Ionizing" means that it can convert atoms and molecules into ions. In other words, it can knock off one or more electrons.
Thomas L. Walden has written: 'Biochemistry of ionizing radiation' -- subject(s): Ionizing radiation, Physiological effect, Radiation effects, Radiobiology
Gamma radiation has the greatest ionizing effect among the different types of radiation. It consists of high-energy photons that can penetrate deeply into tissues and cells, causing extensive damage by ionizing atoms and molecules along its path.
Yes, the Titan 11 warheads can cause ionizing radiation. They fall under the category of nuclear weapons which have an adverse effect to the health of human beings.?æ
Radiation dose in terms of the amount of the biological effect caused by the amount of energy absorbed
Alpha anf beta particles are two kinds of ionizing radiation. Their ionizing effect on materials and human tissues depends on their energies.
Exposing tumors to ionizing radiation kills them faster than it kills nearby healthy tissue. If you can focus or otherwise concentrate the radiation on the tumor the effect is even stronger. The reason for this effect is tumors generally grow much faster than healthy tissue, and ionizing radiation damages growing tissue much more significantly than tissue that is not actively growing. This damage should kill it.
H. Moseley has written: 'Non-ionising radiation' -- subject(s): Hospitals, Lasers, Microwaves, Nonionizing radiation, Physiological effect, Radiation, Non-Ionizing, Safety measures, Ultraviolet Rays
Robert Michael Roy has written: 'Some effects of ionizing radiation on vicia faba' -- subject(s): Plants, Photosynthesis, Growth (Plants), Effect of radiation on 'Simulated fallout studies in conifers' -- subject(s): Plants, Effect of radiation on, Coniferae
Most damage comes from the explosive blast and then thermal radiation, prompt ionizing radiation are produced and cause significant destruction within seconds or minutes of a nuclear detonation.
Roberts Rugh has written: 'The effects of ionizing radiation on the developing embryo and fetus' -- subject(s): Effect of radiation on, Fetus, Ionizing radiation, Physiological effect 'The mouse' -- subject(s): Development, Embryology, Mice, Reproduction 'The mouse; its reproduction and development' -- subject(s): Development, Embryology, Mice, Reproduction 'The frog; its reproduction and development' -- subject(s): Embryology, Frogs, Reproduction 'Guide to Vertebrate Development'