E = hC/ λ
where h is Planck's constant
c is speed of light
λ is wavelength
Hence,
Energy is inversely proportional to wavelength
So short wavelength has more energy than long wavelength!!
Short Wave Lengths have more energy
Gamma Rays and X-rays and Ultra Violet are more likely to harm you (ex: Cancer/ sunburn, etc) than Radio waves or microwaves, because they have more energy.
The higher the frequency the more energy there is.
short wave lengths have more energy because it has a higher frquency
Short wavelengths have more energy per photon. The total energy in both cases can be just about anything.
short
True.
Carbohydrates function in short-term energy storage (such as sugar).
Glucose is a key factor in short-term energy storage for both Plants and Animals.
This minimizes the harmful side effects of the radiation.
Incandescent electric light - electricity heats a filament of tungsten to white hot, at which temperature it emits photons - light.LED - is a semiconductor light source which works by allowing electrons to recombine with electron holes within the device, releasing energy in the form of photons.Synchrotron radiation - electromagnetic radiation emitted when the charged particles are accelerated radiallyLaser - is a device that emits light through a process of optical amplification based on the stimulated emission of photons.Fluorescent lamp - electricity is used to excite mercury vapour which emits invisible, short-wave ultraviolet light. This then causes a phosphor coating on the bulb glass to glow, producing visible light.
Gamma radiation is the most ionising type of radiation, and has a high frequency because of it's short wavelength. It's uses include:killing microorganisms and bacteriakilling mould and insects in/on foodsterilising hospital equipment (especially plastic equipment as it could be damaged in other sterilising methods e.g. - heat)carrying out CT scansradiation therapycancer treatment / curing
X-rays are part of the continuum of electromagnetic radiation. They have higher energy and shorter wavelengths than some other radiations.
The wavelengths of electromagnetic radiation extend from any long wavelength, withno upper limit no matter how long, continuously through all possible wavelengths, withno gaps, down to any short wavelength, with no lower limit no matter how short.
Yes, the shorter the wavelength, the higher the energy. Gamma waves have the shortest wavelengths of all the electromagnetic radiation waves and carry the greatest energy. Radio and TV waves have the longest wavelengths and carry the least energy.
EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.
EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.EM radiation is short for electromagnetic radiation. It is a wave in the electric and magnetic fields.
X-rays and gamma rays can both fit that description.
Type your answer here...The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation.[1] The "electromagnetic spectrum" of an object is the characteristic distribution of electromagnetic radiation emitted or absorbed by that particular object.The electromagnetic spectrum extends from low frequencies used for modern radio to gamma radiation at the short-wavelength end, covering wavelengths from thousands of kilometers down to a fraction of the size of an atom. The long wavelength limit is the size of the universe itself, while it is thought that the short wavelength limit is in the vicinity of the Planck length, although in principle the spectrum is infinite and continuous.
A region of the electromagnetic spectrum that has very short wavelengths and very high energy photons (gamma rays)
EM is short for electromagnetic.
Shorter wavelengths, like gamma rays and X-rays, require more energy to produce than longer wavelengths like visual light.
. . is often accomplished using light bulbs. Radiant energy is commonly used at wavelengths from 30 km down to the wavelength of x-rays and below. It is usually described as electromagnetic radiation.
If this question if referring to electromagnetic radiation (light) then the sun probably emits very small amounts of gamma rays, which have the shortest wavelengths of all electromagnetic radiation as well as larger amounts of x-Rays (the next wavelength larger). However, there are a variety of particles with larger masses and higher energies than that of photons. These particles are known as cosmic rays, which include electrons, muons, protons, neutrons, and even whole helium nuclei (called alpha particles). These higher mass particles can travel at near-light-speed velocities and as a result have very short wavelengths.