According to various sources, prolonged exposure to gamma radiation results in rapid growth and mutation. Symptoms include increased physical strength, agility, rage, peculiar change in skin tone and loss of controlled voluntary action. DNA of affected subjects are highly dangerous as well, according to a study, the brain of an affected individual mutated rapidly resulting in a condition similar to hydrocephalus.
Radiation can be beneficial in diagnosis and treatment of some medical conditions, ranging from X-rays to using specific isotopes to treat cancers. Gamma radiation can be used to sterilise equipment or food by killing bacteria.
it varies because charge to mass ratio of positive rays depends upon gases used in the discharge tube.its varies from gas to gas.
The nuclei of radioactive elements may emitt one or more of the following; Gamma Rays --- very energetic electromagnetic wave pulses Beta Negative Rays --- electrons Beta Positive Rays ---- positrons (positive electrons) Alpha Rays ------ a composite particle consisting of 2 neutrons & 2 protons.
Ex-rays are and are used in doctors offices and airports! and sometimes to see how big your feet are! ;)
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Medicine Gamma rays are used in medicine to kill and treat certain types of cancers and tumors. Gamma rays passing through tissue of the body produce ionization in tissue. Gamma rays can harm the cells in our body. The rays can also detect brain and cardiovascular abnormalities. Industry Gamma rays can be used to examine metallic castings or welds in oil pipelines for weak points. The rays pass through the metal and darken a photographic film at places opposite the weak points. In industry, gamma rays are used for detecting internal defects in metal castings and in welded structures. Gamma rays are used to kill pesticides and bugs in food. Gamma rays are also used in nuclear reactors and atomic bombs. Consumer goods Gamma rays are often used in the food industry. The radioisotopes preserve foods. Although the rays never come in contact with food, beta radiation kills various organisms, such as bacteria, yeast, and insects. Science Gamma rays can be used to detect beryllium. They also played a very important role in the development of the atom bomb.
One use of gamma rays is in cancer treatment, where they can be directed at cancer cells to destroy them.
Because gamma rays have the most electromagnetic energy.
X-rays witch is just under the wavelength of gamma rays. gamma rays are deadly though
Alpha, beta, and gamma rays are types of ionizing radiation. Alpha rays consist of positively charged particles (helium nuclei), beta rays are either electrons or positrons, and gamma rays are high-energy photons. These types of radiation have different penetrating abilities and biological effects.
Gamma rays are used to kill cancerous cells and sometimes for a better view on peoples organs.
Gamma rays are electromagnetic radiation. Gamma rays have very high penetration power. But they have low kinetic power and ionizing power.
Well , Gamma rays and X rays are both harmful and destructive in nature , but have significant advantages. 1. Gamma rays can destroy cancer cells and can treat cancer patients. 2. X rays can be used to check the human body for fracture , to treat the patient.
They are used to treat cancer
Gamma rays are commonly used in medical imaging for procedures like PET scans and gamma knife surgery. They are also used in radiation therapy to treat cancer. In addition, gamma rays are used in industrial applications for inspecting welded joints and detecting flaws in metal components.
Yes, gamma rays can pass through lead, but lead is commonly used as shielding against gamma rays due to its high density and ability to attenuate them effectively. Thicker layers of lead are more effective at blocking gamma rays.
X-rays and gamma rays are forms of electromagnetic radiation with high energy and short wavelengths. X-rays are commonly used in medical imaging and security screening, while gamma rays are typically associated with nuclear reactions and radioactive decay. Both types of radiation can penetrate materials and tissues, but gamma rays have higher energy levels and are more penetrating than x-rays.