Examples of using The electromagnetic spectrum in English and their translations into Vietnamese
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We observe the universe in many different wavelengths of the electromagnetic spectrum(and now, the gravitational wave spectrum) to see different objects radiating at different energies.
Since radio waves are part of the electromagnetic spectrum, they travel at the speed of light(300,000 km/second or 186,000 miles/second), so the waves
Full-spectrum light is light that covers the electromagnetic spectrum from infrared to near-ultraviolet, or all wavelengths that are useful to plant
Those signals are part of the electromagnetic spectrum, so they travel at the speed of light(186,000 miles, or 299,338 kilometers, per second) to all the other radios that are within range
Looking at the electromagnetic spectrum, traditional radio waves exist at a lower frequency: typically 525 to
photons will vary widely, and lines can be observed across the electromagnetic spectrum, from radio waves to gamma rays.
between different rotational states: pure rotational spectra are in the far infrared region(about 30- 150 µm wavelength) of the electromagnetic spectrum.
different rotational states and the pure rotational spectra are far from the infrared region in which the wavelength is about 30- 150 µm of the electromagnetic spectrum.
landmark points along a spectrum of improbability, which might look like the electromagnetic spectrum we just looked at.
If, however, you want to learn more about X-Rays just ask your local doctor- I'm sure he or she will be delighted to discuss the electromagnetic spectrum.
In their astronomical role they differ from optical telescopes in that they operate in the radio frequency portion of the electromagnetic spectrum where they can detect and collect data on radio sources".
consist of gamma rays, which belong to that part of the electromagnetic spectrum that we cannot see with our naked eyes.
In their astronomical roles they differ from optical telescopes in that they operate in the radio frequency portion of the electromagnetic spectrum where they can detect and collect data on radio sources.
They differ from optical telescopes in that they operate in the radio frequency portion of the electromagnetic spectrum where they can detect and collect data on radio sources.
When a material is exposed to an ion beam, atomic interactions occur that give off EM radiation of wavelengths in the x-ray part of the electromagnetic spectrum specific to an element.
analysis of visible light or other regions of the electromagnetic radiation.[13] Observational astronomy may be divided according to the observed region of the electromagnetic spectrum.
Ultraviolet or UV" is a type of energy found in the electromagnetic spectrum, lying between x-rays
UV" is a type of energy found in the electromagnetic spectrum, lying between x-rays
Its primary mirror is 15 metres(16.4 yards) across: it is the largest single-dish telescope that operates in submillimetre wavelengths of the electromagnetic spectrum(far-infrared to microwave).[1] Scientists use it to study the Solar System,