How to use in-sentence of “electromagnetic”:
+ In the late 1800’s many scientists studied the wavelengths of electromagnetic radiation from black-body radiators at different temperatures.
+ That is light, or other signals, All electromagnetic radiation, and also gravitational waves, all of which are limited to the speed of light in a vacuum.
+ Light is electromagnetic radiation that shows properties of both waves and particles.
+ Maxwell’s equations predicted the speed of light and confirmed Michael Faraday’s idea that light was an electromagnetic wave.
+ Now, as a result, that radiation is in the microwave part of the electromagnetic spectrum.
+ Many people are already familiar with electromagnetic radiation, including light.
+ Nuclear magnetic resonance is the physical phenomenon in which magnetic nuclei in a magnetic field absorb, then re-emit electromagnetic radiation.
+ The energy released by radioactive decay may either be carried away by a gamma ray electromagnetic radiation, a beta particle or an alpha particle.
Example sentences of “electromagnetic”:
+ Space-based astronomy is vital for electromagnetic radiationfrequency ranges outside the optical and radio windows.
+ At the beginning of his career, Einstein did not think that Isaac NewtonNewtonian mechanics was enough to bring together the laws of classical mechanics and the laws of the electromagnetic field.
+ It absorbs light most strongly in the blue portion of the electromagnetic spectrum, followed by the red portion.
+ Space-based astronomy is vital for electromagnetic radiationfrequency ranges outside the optical and radio windows.
+ At the beginning of his career, Einstein did not think that Isaac NewtonNewtonian mechanics was enough to bring together the laws of classical mechanics and the laws of the electromagnetic field.
+ It absorbs light most strongly in the blue portion of the electromagnetic spectrum, followed by the red portion.
+ The electrons are visualized as floating above and below the ring with the electromagnetic fields they generate acting to keep the ring flat.
+ Bandwidth is used with electromagnetic spectrum.
+ Diffraction occurs with all waves, including sound waves, water waves, and electromagnetic waves such as light that the eye can see.
+ The electromagnetic force comes from something called an electromagnetic field.
+ The microwaves that are used to heat food in a microwave oven are also a form of electromagnetic radiation.
+ An aurora can be especially bright following a solar flare and coronal mass ejection, when the charged particles rip through the electromagnetic field because of their power.
+ The electric field and the magnetic field are components of the electromagnetic field.
+ Light is a form of electromagnetic radiation with a wavelength which can be detected by the human eye.
+ The electromagnetic spectrum is the range of all possible electromagnetic radiation.
+ SoundSound waves are not electromagnetic waves but waves of pressure in air, water or any other substance.
+ Some scientists have tried to make a theory that combines the electromagnetic force, the weak nuclear force, and the strong nuclear force.
More in-sentence examples of “electromagnetic”:
+ They send electromagnetic microwaves from base station to base station.
+ The electromagnetic field's messenger particles, photons, carry an image timelessly across the universe while observers within this field have enough flow through time to decode this image and react by moving within 3D space, yet can never outrun this timeless image.
+ This electromagnetic force works against the voltage sent to the motor.
+ They send electromagnetic microwaves from base station to base station.
+ The electromagnetic field’s messenger particles, photons, carry an image timelessly across the universe while observers within this field have enough flow through time to decode this image and react by moving within 3D space, yet can never outrun this timeless image.
+ This electromagnetic force works against the voltage sent to the motor.
+ Thus, photons are the carrier particles of electromagnetic interactions.
+ Material through which electromagnetic waves pass or “propagate”.
+ Some types of electromagnetic radiation, such as X-rays, are ionizing radiation and can be harmful to your body.
+ The displacement current is justified today because it serves several requirements of an electromagnetic theory: correct prediction of magnetic fields in regions where no free current flows; prediction of wave propagation of electromagnetic fields; and conservation of electric charge in cases where charge density is time-varying.
+ The two atoms are now held together by the electromagnetic force of attraction between positive and negative charges.
+ The tablet generates an electromagnetic signal, which is received by a circuit in the stylus.
+ In a vacuum, all electromagnetic waves travel at the speed of light.
+ A surface wave can also be an electromagnetic wave guided by a refractive index gradient.
+ The Dirac delta function can model an electromagnetic charge of a point in space.
+ Some computing architectures such as optical computers may use classical superposition of electromagnetic waves.
+ A ‘black body’ is an idealised physical body which absorbs all electromagnetic radiation which strikes it, and reflects none.
+ The problem now is to prove that Maxwell’s equations explicitly prove that the electric and magnetic fields create electromagnetic radiation.
+ The law relates the quantity and wavelength of electromagnetic energy given off by a black body radiator at different temperatures.
+ For the electromagnetic field, the curvature form is an antisymmetric matrix whose elements are the electric field and magnetic field: the electromagnetic tensor.
+ As the Universe expands, the energy density of the electromagnetic radiation decreases more quickly than does that of matter, since the energy of a photon decreases with its wavelength.
+ Fluorescence is the light given off by certain substances when it absorbs light or other electromagnetic radiation.
+ In 1865, James Clerk Maxwell published his theory of electromagnetic fields and radiation.
+ NYU is one of the places where 5G was created, as well as where many of the foundations of modern electromagnetic theory were discovered.
+ Opacity is the measure of impenetrability to electromagnetic or other radiation, especially visible light.
+ With the addition of the displacement current, Maxwell was able to hypothesize that light was a form of electromagnetic wave.
+ The electromagnetic force pushes or pulls anything that has an electric charge, like electrons and protons.
+ Not every electromagnetic wave will cause the photoelectric effect, only radiation of a certain frequency or higher will cause the effect.
+ All objects in the universe that have a temperature above absolute zero give off some form of electromagnetic radiation.
+ Power is wasted as heat, vibrations and/or electromagnetic radiation.
+ Thus, X-ray diffraction results from an electromagnetic wave.
+ Other electromagnetic waves also have polarization, but it can happen in different ways.
+ In the electromagnetic spectrum, ultraviolet is beyond violet, x-rays are beyond ultraviolet, and gamma rays are beyond x-rays.
+ Einstein also found that electromagnetic radiation with a long wavelength had no effect.
+ This was opposite to the idea that they were some sort of electromagnetic radiation.
+ He also proved that light is a kind of electromagnetic waves.
+ Bose’s works helped statistical mechanics, the electromagnetic properties of the ionosphere, the theories of X-ray crystallography, and unified field theory.
+ Like the electromagnetic force’s positive and negative charges, different colours attract, and the same colours repel.
+ The electromagnetic force keeps the electrons attached to the atom.
+ These are all parts of the electromagnetic spectrum.
+ Since a photon’s energy is inversely proportional to its wavelength, electromagnetic waves with the energy of visible light or higher, such as ultraviolet light, x-rays and gamma rays are usually involved in such reactions.
+ Gravitation, Electromagnetic radiation, and sound loudness also follow this law.
+ All telescopes work by collecting electromagnetic radiation and focussing it into an image which may be seen or photographed.
+ Not all types of electromagnetic radiation are carcinogenic.
+ Gamma rays have the highest energy of any electromagnetic wave, and gamma ray bursts from space are the most energetic releases of energy known.
+ We can only see electromagnetic radiation in the visible light spectrum, so microwaves are invisible.
+ This idea, called electromagnetic induction, is used to make electric generators, induction motors, and transformers work.
+ In 1905, Einstein’s special theory of relativity explained the accuracy of both Maxwell’s electromagnetic field and Galilean relativity by stating that the field’s speed is absolute—a universal constant—whereas both space and time are local phenomena “relative” to the object’s energy.