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The range of electromagnetic waves that human eyes can detect?
The range of electromagnetic waves that human eyes can detect is known as the visible spectrum, which includes wavelengths from approximately 400 to 700 nanometers. These wavelengths represent the colors of the rainbow, from violet to red. Beyond this range are ultraviolet and infrared waves, which are invisible to the human eye.
The visible portion of the electromagnetic spectrum represent a large portion of the spectrum?
Yes, the visible portion of the electromagnetic spectrum consists of wavelengths between approximately 400 to 700 nanometers. This range is a small portion of the entire electromagnetic spectrum, which includes radio waves, microwaves, infrared, ultraviolet, X-rays, and gamma rays.
What is the relative charge of gamma particles?
The gamma particle's symbol is the lowercase Greek gamma, the velar, which looks like a lower case western v, but the base has a narrow loop, and the left top has a curved serif. In print, it looks like a Y, shifted down as if it were a lower case letter with a descender. We can't represent it here on Answers.com, but the Related Link below will take you to WikiPedia where you can see a representation of it. The charge of a gamma particle is that of the photon, which is zero.
Suppose the pennies represent nuclei of radioactive element what would the heads and tail represent?
In this analogy, the heads of the pennies could represent stable nuclei, while the tails could represent radioactive nuclei. Stable nuclei do not undergo spontaneous decay, while radioactive nuclei have the potential to decay and emit radiation over time.
What do the squiggly orange lines represent?
Infrared Radiation being emited from the Earth Surface, Hope were talking about the same Question of Global Warming
When electromagnetic radiation is arranged to wavelength and frequency it forms the?
electromagnetic spectrum, which includes radio waves, microwaves, infrared, visible light, ultraviolet, X-rays, and gamma rays. These waves represent different regions of the spectrum based on their wavelengths and frequencies.
Why does electromagnetic radiation in the ultraviolet region represent a larger energy transition than does radiation in the infared region?
Well, it's hard not to say "It's just the way it is", because it follows a law of Physics, but I'll try to explain the best I can.Up the electromagnetic spectrum is this order. Radio, Microwave, Infrared, red, orange, yellow, green, blue, indigo, violet, ultraviolet, X-ray, and Gamma. The higher up the radiation, the smaller the wavelength (the length of the wave, intuitively), and the higher the frequency (the amount of "waving" done in a second).Since frequency (aforementioned) is directly proportional to Energy with the equation E=hf (or instead of "f", "v" as wikipedia loves to call it), it makes sense that the higher the frequency, the higher the energy per photon. Right?UV is definitely above infrared in this case, and has been repeatedly proven through experiments to be on a higher tier than infrared radiation.
Why does electromagnetic radiation in the ultraviolet region represent a larger energy transition than does radiation in the region?
Well, it's hard not to say "It's just the way it is", because it follows a law of Physics, but I'll try to explain the best I can.Up the electromagnetic spectrum is this order. Radio, Microwave, Infrared, red, orange, yellow, green, blue, indigo, violet, ultraviolet, X-ray, and Gamma. The higher up the radiation, the smaller the wavelength (the length of the wave, intuitively), and the higher the frequency (the amount of "waving" done in a second).Since frequency (aforementioned) is directly proportional to Energy with the equation E=hf (or instead of "f", "v" as wikipedia loves to call it), it makes sense that the higher the frequency, the higher the energy per photon. Right?UV is definitely above infrared in this case, and has been repeatedly proven through experiments to be on a higher tier than infrared radiation.
What does the electromagnetic wave graph represent and how is it used in the study of physics?
The electromagnetic wave graph represents the oscillating electric and magnetic fields that make up light and other forms of electromagnetic radiation. In physics, this graph is used to study the properties and behavior of electromagnetic waves, including their speed, frequency, wavelength, and polarization. It helps scientists understand how light and other forms of electromagnetic radiation interact with matter and travel through space.
What is a good sentence with the words electromagnetic spectrum in it?
The electromagnetic spectrum spans from the lowly radio signals (1x104 Hz) that we use for terrestrial broadcasting to gamma rays (1x1021 Hz) from the sun! ===================
Which form of energy is represented by X-rays?
Radiant. X-rays are radiated from the Sun and are part of radiant energy
What does the electromagnetic spectrum include?
Electromagnetic Radiation is one of the four "forces" to include EM, gravity, and the strong and weak nuclear forces. The EM emissions in the spectrum differ only in their frequency, wavelength and amplitude (strength). Wavelength ranges from, for example HAM/CB Radio with very large wavelengths (miles wide or more) to gamma radiation with wavelengths of the scale of smaller than a trillionth of a meter. Visible light is a very small slice of the electromagnetic spectrum; true green, the color to which your eye is most sensitive is 555 nanometers wavelength. A very high energy, hot objects like a star or thermonuclear explosion emits all frequencies of EM Radiation. Remember all EM Radiation in a vacuum travels at the speed of light so frequency is calculated by dividing C (the speed of light) by the specific wavelength of the radiation.
What do the different colors of visable light represent?
Different colors of visible light represent different wavelengths of electromagnetic radiation. Visible light ranges from violet (shorter wavelength) to red (longer wavelength), with each color corresponding to a specific wavelength on the electromagnetic spectrum. Each color has a unique energy level and frequency, which determines its appearance to the human eye.
The range of electromagnetic waves that human eyes can detect?
The range of electromagnetic waves that human eyes can detect is known as the visible spectrum, which includes wavelengths from approximately 400 to 700 nanometers. These wavelengths represent the colors of the rainbow, from violet to red. Beyond this range are ultraviolet and infrared waves, which are invisible to the human eye.
Who represent the control flow that performs particular operation?
transition
Is first a transition?
Yes, first is a transition word.Transitional words and phrases represent one way of gaining coherence.
A series of wave patterns?
A series of wave patterns can represent various phenomena such as sound waves, water waves, or electromagnetic waves. These patterns can be characterized by their frequency, amplitude, and wavelength. Understanding wave patterns is essential in fields like physics, engineering, and telecommunications to analyze and predict the behavior of waves.
