Light is the communication between us and the universe. With light, we can find distant stars and look back to the beginning of existence itself. But, what is light? Up Light is the smallest amount of energy that A Photon can deliver, a basic element that has no real size that cannot be separated, created or destroyed. Light also has a wavelength of particles being particle and wave at the same time (although this is false) And when we say light, we are actually referring to visible light that is a small part of an electromagnetic microscope: Power in the form of electromagnetic radiation. Electromagnetic radiation consists of a large range of wavelengths and ranges. Gamma rays have the smallest wavelengths because they are the highest energy photons. But most gamma rays are less than ten pipes, which are much smaller than a hydrogen atom. To look at, a hydrogen atom in relation to a cent is about a cent as compared to a Moon. Visible light is between the peaks in the range of 400 nanometers to 700 nanometers: about the size of a bacterium. On the other hand, radio waves are about 100 miles [100 km] in diameter. The enormous forces that we know exist that can range from 10,000 km to 100,000 critical miles, larger than Earth. From a physics standpoint, all these different waves are equal. They all have wavelengths — in particles and travel in 'c', the speed of light, for different miles. Now, what makes visible light so special? Well ... Not at all. We've already had some out-of-sight, beautiful eyes by directly registering this part of the electromagnetic state. This is not a coincidence. Visible light is the only stop for electromagnetic radiation that amplifies when it is in water, which occurs where many eyes appear, millions of years ago. That was a great move because the light not only interacts with matter, it is also interchangeable and can be used to gather information about the world around us, almost without delay. Which is a really useful argument for survival. Well, where does the light come from? A large range of electromagnetic waves is formed when atoms or molecules descend from a high energy state to a low one. They faint and take you out in the form of radiation. At the microscopic level, optical illumination is created when the electron inside the excited state atoms collapses into a low energy state and loses its maximum power. In the same way, incoming light can lift an electron into a higher energy state by its gravitational pull. Macroscopically, the moving charge of an electron generates an oscillating magnetic field, which makes the electric field oscillates. These two arenas move through space, transferring energy from one place to another, carrying details of their environment. Why in all things in space is the simplest thing? Let's change the question: What's the fastest way to travel in space? C, two hundred and ninety-nine million, seven hundred and ninety-two thousand, four hundred and fifty-eight miles per second in space, one billion miles per hour. Electromagnetic radiation just happens to move this acceleration. Any weightless particle moves in c, without acceleration or in between. The candlelight does not accelerate until it reaches the speed of light, At the instant of its creation, its speed c. So why c, the speed of light, prevail there? Hey, nobody knows. Our universe is built this way. We don't have a smart answer here. The light is thus part of the anchor, which is a fundamental particle that also behaves like a wave, It is propelled by two perpendicular fields, moving along the speed of the universe.
What Is Light?
Reviewed by Durgajit Deka Baruah
on
April 04, 2020
Rating:
Nice
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