Electrons do not carry light. Light is an electromagnetic wave or a photon.
The amount of electrons it takes to make 80CU of charge would come as an equation. CU stands for Coulombs. It would take 4.9932078e+20 electrons for 80 CU of charge.
Take the atomic number then subtract the amount of valence electrons. Example: Number of non valence (inner) electrons in Sulfur: 16 (atomic number) - 6 (valence electrons) = 10 (valence or inner electrons)
Take the atomic number then subtract the amount of valence electrons. Example: Number of non valence (inner) electrons in Sulfur: 16 (atomic number) - 6 (valence electrons) = 10 (valence or inner electrons)
from the book
Simply, Red Blood Cells (RBC's). They carry a HUGE amount of Hemoglobin in which allows them to be able to take the maximum amount of oxygen. However, in order to be able to carry the most amount of Hemoglobin, they do not contain a nucleus. No cell division, but the bone marrow takes care off that!
The retina.
The CMOS sensor in a camera is a light sensor that takes in the light of an image and turns it into electrons, the electrons are then turned into pixels so that they can be viewed. CMOS stands for Complimentary Metal-Oxide Semiconductor.
Yes, although it will take a lot longer than in sunlight. The particles of light are called photons and each photon carries a certain amount of energy. As the photon hits the photovoltaic cells of the solar panel, the energy they contain is converted into electrical energy by the excitation of electrons in the board. The stronger the light, the more energy.
Leve (noun) - Light. Levar (verb) Can also mean to carry/to take. (leve isto aqui - take this)
The amount of UV light reaching the earth varies in a predictable manner. This is determined by the various reactions that take place in the ozone.
That depends on the roof, but the snow simply has to exceed the maximum amount the roof was designed to carry.
Strontium lose electrons.