Which type of solar radiation is the most powerful?
Answers
Answer:
The type of solar radiation that is the most powerful is the Ultraviolet Radiation.
Explanation:
Ultraviolet Radiation is the radiation that has the shortest wavelength (360 nanometers), which carries a lot of energy and interferes with molecular bonds. Especially those less than 300 nanometers, which can alter DNA molecules, very important for life. These waves are absorbed by the upper part of the atmosphere, especially by the ozone layer.
The damage that ultraviolet rays can cause to humans include effects on the skin such as irritation, wrinkles, loss of elasticity, spots and cancer; also possible conditions at the ocular level and can trigger systemic lupus erythematosus.
The most powerful type of solar radiation is known as gamma radiation.
Gamma radiation consists of high-energy photons and is part of the electromagnetic spectrum. It has the highest frequency and shortest wavelength among the various types of solar radiation, which include gamma rays, X-rays, ultraviolet (UV) radiation, visible light, infrared (IR) radiation, and radio waves. Gamma radiation is generated by nuclear reactions, such as those occurring in the core of the Sun and in other high-energy processes in the universe. Due to its high energy, gamma radiation can penetrate deeply into matter and has the potential to cause ionization and damage to living cells.
Therefore, it is important to limit exposure to gamma radiation and take appropriate safety precautions when working with radioactive materials or in environments with high levels of gamma radiation.
Learn more about solar radiation here:
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Related Questions
In the thermal decomposition of copper carbonate, the black solid left behind weights less than the original copper carbonate . Why?
A). Polonium is a rare element with 33 radioisotopes. The most common one, 210Po, has 82 protons and 128 neutrons. When 210Po decays, it emits an alpha particle, which is a helium nucleus (2 protons and 2 neutrons). 210Po decay is tricky to detect because alpha particles do not carry very much energy compared to other forms of radiation. They can be stopped by, for example, a sheet of paper or a few inches of air. That is one reason that authorities failed to discover toxic amounts of 210Po in the body of former KGB agent Alexander Litvinenko until after he died suddenly and mysteriously in 2006. What element does an atom of 210Po change into after it emits an alpha particle? b). Some undiluted acids aremore corrosive when they are diluted with water. That is why laboratory workers are told to wipe acid splashes with a towel before washing with a copious amounts of water. Explain.
Given: The equation for the synthesis of ammonia is H2(g) + N2(g) → NH3(g). If 12.0 grams of hydrogen are used up by the reaction, how many grams of ammonia will be produced?
A lack of sewage structures in overcrowded cities may lead to __________.a. a higher carrying capacityb. larger urban heat islandsc. poor public healthd. a greater support capacity
Answers
H2O + CO2 --> H2CO3
Ratio between water and CO2 is 1:1. So we can say that for every Mole of CO2, we need 1 Mole of water to produce 1 Mole of H2CO3. Thus as n=m/M we can find n = 528/44.01 = 11.997 ~ 12Mol.
Therefore, we need 12 moles of water.
Answer:
12 moles
Explanation:
The reaction will form carbonic acid:
CO₂ + H₂O ⇒ H₂CO₃
For 528 g of CO₂, the number of moles (n) will be:
n = mass/molar mass
n = 528/44.01
n = 12 moles of CO₂
The stoichiometry is 1 mol of CO₂ reacts with 1 mol of H₂O, so 12 moles of CO₂ need 12 moles of H₂O.
Answers
Answer:
Friction occurs because no surface is perfectly smooth. Rougher surfaces have more friction between them. Heavier objects also have more friction because they press together with greater force. Friction produces heat because it causes the molecules on rubbing surfaces to move faster and have more energy.
Explanation:
Answer:
Friction occurs because no surface is perfectly smooth. Rougher surfaces have more friction between them.
Explanation:
B. substitution
C. decomposition
D. combination
Answers
Answers
blue end of the spectrum
middle of the spectrum
The light-gathering capacity of a telescope is dependent upon the:
magnification
focal length
size of human iris
area of aperture
Answers
Answer:
1) blue end of the spectrum
2) area of aperture
Explanation:
1) The electromagnetic spectrum encompases a wide range of frequency (ν) and wavelength (λ) that includes gamma rays, x-rays, ultra violet(UV), visible, infra red (IR), microwaves and radiowaves. The wavelength increases from gamma rays to radio waves.
The wavelength perceivable by human eyes lies in the UV-visible region which extends from 380 nm in the blue to 740 nm in the red.The shortest wavelengths occur in the blue end of the spectrum which also have the highest energy. In contrast, longer wavelengths occur on the red which have lower energy.
2) The light gathering capacity of a telescope is dependent upon its area of aperture. Larger the area, greater is the light gathering power which implies that the telescope has the capability of detecting weak or faint objects.
The area of the aperture is essentially the area of the objective of the telescopic lens which is given as:
where D = diameter of the lens
1) blue end of the spectrum
2) area of aperture
Answers
Answer:
8 g
I took the quiz and because the amount doesn’t change