When two gamma ray photons meet, they can undergo a process called pair production, where they can create an electron-positron pair. This process demonstrates that energy can be converted into matter.
Photons do not come in different types like infared-photons etc. they are just the wavelength that the photons are at and nuclear fusion just happens to emit photons at a particular wavelength
The highest energy photons are described as Gamma. But in terms of the strength, there are more light sources that we encounter everyday of a greater intensity than gamma, as intensity is a measure of the number of photons arriving over an area in a given time. Therefore, visible light and infra-red from the sun are much more intense than the gamma we encounter everyday, as gamma photons are few and far between.
Yes. Alpha particles are helium nuclei. Beta particles are electrons. Gamma rays consist of high frequency electromagnetic radiation. Modern physics has shown that electromagnetic radiation(EMR), including gamma, do not have a wave nature only, but also a particulate nature. Einstein said that EMR are made of photons.
Well, honey, red light photons are like the friendly neighbor who stops by for a chat, while gamma ray photons are the aggressive door-to-door salesperson who won't take no for an answer. Red light photons have lower energy and longer wavelengths, making them less penetrative compared to the high-energy, short-wavelength gamma ray photons. It's like comparing a gentle breeze to a hurricane - one just doesn't pack the same punch as the other.
No. Gamma rays are photons (light particles). Photons are particles with no mass, no charge and no magnetic moment.
Gamma rays are high-energy photons.
Photons do not come in different types like infared-photons etc. they are just the wavelength that the photons are at and nuclear fusion just happens to emit photons at a particular wavelength
Gamma ray photons are produced in the core of the Sun through the process of nuclear fusion. The core is where the temperature and pressure are high enough to drive these reactions, leading to the release of gamma ray photons.
The core
Gamma radiation is high-energy photons emitted by a radioisotope.
Gamma decay consists of the emission of gamma rays, which are high-energy photons. This type of radioactive decay occurs when an unstable nucleus releases excess energy in the form of gamma rays to become more stable.
Gamma rays have no mass because they are a form of electromagnetic radiation, which consists of massless particles called photons. Photons, including gamma rays, do not have rest mass, but they do have energy and momentum.
Gamma rays are composed of photons, which are packets of electromagnetic energy. These photons are the highest-energy form of electromagnetic radiation and have no mass or charge.
Gamma ray photons have a higher frequency (and therefore carry more energy) than X-ray photons.
Gamma rays. Gamma rays are photons, but very high energy photons. They are the photons generated by processes in the nuclei of atoms.
the core
The core