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How much bigger is a wavelength of a water wave that measures 2 meters than a wavelength of red light that id 650 nanometers?
The wavelength of the water wave that measures 2 meters is 3,076,923 times bigger than the wavelength of red light that is 650 nanometers.
How much bigger is it is the wavelength of a water wave that measures to meters then the wavelength of a red light that is 650 nm?
The wavelength of the water wave that measures in meters is much bigger than the wavelength of the red light which is 650 nm. The difference is approximately 6 orders of magnitude, as 1 meter is equivalent to 1,000,000,000 nm.
What is the frequency of a red laser beam with a wavelength of 650 nm?
The frequency of a red laser beam with a wavelength of 650 nm can be calculated using the formula: frequency = speed of light / wavelength. The speed of light in a vacuum is approximately 3 x 10^8 m/s. Thus, the frequency of the red laser beam would be approximately 4.6 x 10^14 Hz.
Why does red have a lower frequency then other colors?
Red light has a lower frequency because it has a longer wavelength compared to other colors in the visible spectrum. Electromagnetic waves with longer wavelengths have lower frequencies, while waves with shorter wavelengths have higher frequencies. This is why red light, with its longer wavelength, falls on the lower end of the visible light spectrum in terms of frequency.
What is the light waves of light?
Light waves pertain to the frequency of light. All light is known as electromagnetic radiation and travels in the form of a wave (although it does have particle characteristic) meaning that these waves have different frequencies. A frequency tells us how often the waves goes up and down and how powerful they are. Light can also be measured by it's wave length, the distance it take for the light to go up and back down again (vice versa). A certain wavelength of light will be a different color, for example if light (Electromagnetic Radiation) has a wavelength of 650 nm (nanometers) then it will appear as the color red. Humans can only perceive light that has a wavelength in between 350 nm and 750 nm, a very small portion of all electromagnetic radiation. Here is a list of colors pertaining to their wavelength: Violet: 400 nm Indigo: 445 nm Blue: 475 nm Green: 510 nm Yellow: 570 nm Orange: 590 nm Red: 650 nm White: White is a mixture of all colors of visible light. Black: Black is an absence of light, meaning that there is no light.
How much bigger is a wavelength of a water wave that measures 2 meters than a wavelength of red light that id 650 nanometers?
The wavelength of the water wave that measures 2 meters is 3,076,923 times bigger than the wavelength of red light that is 650 nanometers.
How much bigger is it is the wavelength of a water wave that measures to meters then the wavelength of a red light that is 650 nm?
The wavelength of the water wave that measures in meters is much bigger than the wavelength of the red light which is 650 nm. The difference is approximately 6 orders of magnitude, as 1 meter is equivalent to 1,000,000,000 nm.
What is the frequency of a red laser beam with a wavelength of 650 nm?
The frequency of a red laser beam with a wavelength of 650 nm can be calculated using the formula: frequency = speed of light / wavelength. The speed of light in a vacuum is approximately 3 x 10^8 m/s. Thus, the frequency of the red laser beam would be approximately 4.6 x 10^14 Hz.
Why does red have a lower frequency then other colors?
Red light has a lower frequency because it has a longer wavelength compared to other colors in the visible spectrum. Electromagnetic waves with longer wavelengths have lower frequencies, while waves with shorter wavelengths have higher frequencies. This is why red light, with its longer wavelength, falls on the lower end of the visible light spectrum in terms of frequency.
If the wavelength of a red light is 650 nanometers How much bigger is the wavelength of a water wave that measures 2 meters?
650 nm= .00000065 m 2m - .00000065m= the water wave is ~1.99999935 meters larger than the red light wave
How is color related to the wavelength of visible light?
It affects the color of the light. If you change the wavelength of visible light, you change the light's color. For instance. Red is a wavelength of approximately 650 nanometers. Orange, about 590. Yellow, 570. Green- 510, Blue, 475 nanometers. Indigo is 445 and Violet is about 400. You can see more here: http://eosweb.larc.nasa.gov/EDDOCS/Wavelengths_for_Colors.html#red
What is the light waves of light?
Light waves pertain to the frequency of light. All light is known as electromagnetic radiation and travels in the form of a wave (although it does have particle characteristic) meaning that these waves have different frequencies. A frequency tells us how often the waves goes up and down and how powerful they are. Light can also be measured by it's wave length, the distance it take for the light to go up and back down again (vice versa). A certain wavelength of light will be a different color, for example if light (Electromagnetic Radiation) has a wavelength of 650 nm (nanometers) then it will appear as the color red. Humans can only perceive light that has a wavelength in between 350 nm and 750 nm, a very small portion of all electromagnetic radiation. Here is a list of colors pertaining to their wavelength: Violet: 400 nm Indigo: 445 nm Blue: 475 nm Green: 510 nm Yellow: 570 nm Orange: 590 nm Red: 650 nm White: White is a mixture of all colors of visible light. Black: Black is an absence of light, meaning that there is no light.
Is the wavelength of microwave radiation greater than the wavelength of visible light?
Not even close. Microwaves are much longer, with a lower frequency, than light is.The shortest 'microwave' is in the neighborhood of 1 millimeter long (300 GHz).That's about 1,540 times as long as the longest visible wave (red, 650 nm)).
What is the Ruby laser wavelength?
A ruby laser is a red laser with a wavelength between 694 nm and 628 nm. 1 nanometer = 1×10−9 meter.
What does the nm in 650nm laser diode mean?
"nanometer" or billionths of a meter. 650 nanometers is the wavelength of the light produced by the diode.
What is the frequency of orange light at 620nm?
We start with two formulas; E = hf and f = c/λwhere:E = Energy (eV)h = Planck's Constant (6.626x10-34 (J-s))f = frequency (Hz) of orange light at 650 nmc = speed of light (3x108 m/s)λ = wavelength of orange light (nm)First, f = c/λ can be used to replace f in E=hf making the revised formula E = hc/λ;Solve for E;E = (6.626x10-34 * 3x108 ) / 650x10-9 = 3.0582x10-19 eV
What color is the laser beam in a DVD drive?
Red - its 650 nanometer wavelength puts it squarely in the middle of the visible light's red spectrum.
