10 with 20 zeroes after it, I think. (km per sec)
Gamma rays travel at the speed of light in air, which is approximately 299,792,458 meters per second.
Gamma radiation can travel several meters in air, depending on its energy level. Higher energy gamma rays can penetrate further than lower energy ones. Typically, gamma radiation can travel tens of meters in air before being absorbed or scattered.
Gamma rays can travel long distances through space, potentially millions of light years, due to their high energy and lack of mass. On Earth, the distance gamma rays can travel depends on the material they encounter, with higher-energy gamma rays penetrating further than lower-energy ones. In dense materials like lead, gamma rays may only penetrate a few centimeters, while in air they can travel several meters.
Gamma radiation can travel several feet in the air and can penetrate most materials, making it highly penetrating. The distance gamma radiation can travel depends on the energy of the gamma rays and the material they are passing through. Lead and concrete are commonly used to shield against gamma radiation.
Index of refraction of air is very low, like 1.0003. The index of refraction is a function of wavelength. X-rays and gamma rays pass through air at c. c is 299,792,458 m/s, so speed of visible light in air is about 299,700,000 m/s.
hi my names princess and i think that the answer is GAMMA RAYS if I'm right can you tell me
Gamma rays can travel large distances in air, with a range of several meters to several kilometers depending on their energy level. Their ability to penetrate materials makes them a significant hazard for health and safety.
Radiation in the form of electromagnetic waves travels through space at the speed of light. This includes visible light, radio waves, microwaves, X-rays, and gamma rays. These waves do not require a medium like air or water to propagate and can travel through the vacuum of space.
Yes, gamma rays can travel through a vacuum because they have high energy and short wavelengths that allow them to pass through space. Microwaves, on the other hand, are generally absorbed by the Earth's atmosphere and cannot travel through a vacuum because they have longer wavelengths that interact with molecules in the air.
In air, among the common types of ionizing radiation, gamma rays typically travel the furthest. Gamma rays are highly energetic electromagnetic waves or photons that have no mass or charge. Because of their high energy and lack of charge, they can penetrate matter more deeply than other forms of ionizing radiation like alpha and beta particles. Alpha particles, consisting of two protons and two neutrons, have a relatively low range in air because they are heavy and positively charged. Beta particles, which are high-speed electrons (beta-minus) or positrons (beta-plus), also have a limited range in the air due to their interactions with air molecules and electrons in the medium. Gamma rays, on the other hand, have no charge and interact with matter primarily through electromagnetic interactions. This allows them to penetrate air and other materials more deeply. However, the extent to which gamma rays can travel through air depends on their energy level. Higher-energy gamma rays can penetrate further than lower-energy ones. Extremely high-energy gamma rays from cosmic sources can even penetrate the Earth's atmosphere and reach the surface. It's worth noting that while gamma rays can travel far in the air, they can still be attenuated (absorbed or scattered) by denser materials or shielded effectively using appropriate shielding materials such as lead or concrete, depending on their energy level.
The speed of gamma radiation in air or vacuum is approximately the speed of light, which is about 299,792,458 meters per second.
UV rays and all forms of radiation travel at the speed of light. Speed of light = 299,792,458 meters/second (source: Wikipedia) extremely fast, faster than alex holman taking a dump!