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How do scientists use gamma rays to determine the composition of a planet?
Wiki User
β 8y ago
They use spectroscopy.
Wiki User
β 8y ago
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How do scientists use gamma rays to determine to composition of a planet?
True
What has bigger wave lengths microwaves or gamma rays?
Gamma rays have shorter wavelengths compared to microwaves. This means that microwaves have longer wavelengths than gamma rays.
What are three instruments scientist use to observe things not see able with human eye?
Scientists use microscopes to observe objects at a very small scale, such as cells and microorganisms. Telescopes are used to observe celestial bodies and phenomena in space that are not visible to the naked eye. Spectrometers are used to analyze the light emitted or absorbed by objects, helping scientists gather information about their composition and properties.
Is gamma ray a visible light?
No, gamma rays are not visible to the human eye.
What is the color of the gamma star?
green
How do scientists use gamma rays to determine to composition of a planet?
True
What is a gamma gauge and what does it do?
A gamma gauge is a device that uses gamma radiation to measure the level of a specific material or substance in a sample. It can be used in various industries such as mining, agriculture, and environmental monitoring to determine the composition or density of materials.
How does the composition of gamma rays compare to the composition of alpha and beta partilce?
Gamma rays are electromagnetic radiation.Alpha particles are helium nuclei.Beta particles are electrons.
What number planet is keron from Keroro Gunsou?
The Gamma Planetary System the 58th Planet.
Are Gamma rays harmful to earth?
Gamma rays are not necessarily harmful to the planet Earth, but to all the living organisms that inhabit it, as Gamma is a powerful form of radiation.
Can consentration of gamma rays vaporize?
forget what the scientists say gamma rays depending on energy can be extremely hot for example a gamma ray burst at a distance of 300 light years can vaporize a planet and those gamma rays probably have temperatures well up into the the trillions if not quadrillions of degrees. So yes a high concentration of gamma rays will vaporize a human, but not just that they will vaporize whatever is surrounding and in front of it. For instance if gamma rays hit the top of the earth's atmosphere and there energy is transferred to heat those gamma rays will vaporize the ground the water or whatever they happen to hit kind of like billions of megatons of energy
What can scientists do to prepare for a gamma ray burst?
At our current level of technology absolutely nothing.
How can gamma rays detect?
Gamma rays can be detected using instruments like Geiger-Muller counters or scintillation detectors that can measure the energy and intensity of the gamma radiation. When gamma rays interact with these detectors, they produce electrical signals that can be amplified and analyzed to determine the presence and characteristics of the gamma rays.
Which type of radioavtive decay does the mass number remain unchanged?
In gamma decay, the mass number remains unchanged as there is no emission of particles, only high-energy gamma rays are emitted. This process does not affect the nucleus composition, unlike alpha and beta decays which result in a change in the mass number.
Neutron activation analysis involves bombarding specimens with neutrons then measuring the resultant?
emission of gamma rays to determine the elemental composition. This technique is commonly used for analyzing trace elements in various materials, such as archaeological artifacts, environmental samples, and industrial materials.
How does a gamma density meter work?
A gamma density meter works by measuring the level of gamma radiation that passes through a material. This measurement is then used to determine the density of the material being scanned. The higher the density of the material, the more gamma radiation is absorbed, resulting in a lower reading on the meter.
What is the difference of the s phase of beta and gamma?
The S phase of beta decay involves the conversion of a neutron into a proton, releasing a beta particle (electron or positron) and an antineutrino (or neutrino). In gamma decay, the nucleus releases a gamma ray photon to transition to a lower energy state without changing its composition.
