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How does cochlea detect different sound frequencies?
The cochlea detects sound frequencies through hair cells that line its inner walls. Different frequencies cause different regions of hair cells to vibrate, which triggers signals to be sent to the brain representing different frequencies. The brain then interprets these signals as different sound frequencies.
Since the different kinds of waves have different lengths they also have different?
frequencies. Shorter wavelengths correspond to higher frequencies, while longer wavelengths correspond to lower frequencies. This relationship is described by the formula: frequency = speed of light / wavelength.
How is it possible for a single electron to produce so many different wavelengths and frequencies?
A single electron can produce different types of radiation. Radiation, frequency, and wavelength all rely on each other. If an electron can produce multiple types of radiation, it can also produce different wavelengths and frequencies, because the wavelengths and frequencies are dependent on the radiation type.
What allows us to hear frequencies?
The human ear is able to hear different frequencies of sound due to the specialized hair cells in the cochlea that vibrate in response to different frequencies. These vibrations are then transmitted as electrical signals to the brain through the auditory nerve, allowing us to perceive and interpret different frequencies as sound.
How many frequencies are there between 400nm and 401nm?
There are an infinite number of frequencies between 400nm and 401nm since the spectrum of light is continuous. Each nm represents a different frequency within that range.
Where does white light comes from?
light as it originates from the sun or a bulb before it is broken into different frequencies
What is Ultraviolet lights?
Ultraviolet light (UV light) is light of shorter wavelength than the visible spectrum. Many insects, like bees, see mostly UV light so they can find plants with nectar. Sunlight contains UV light and can tan but also damage your skin if you stay outside too long on a sunny day.Answer:Visible light is electromagnet radiation of different frequencies. The different frequencies are the different colors. Just outside the range of frequencies (colors) humans can see are infrared and ultraviolet. Ultraviolet is higher frequency and infrared is lower.Note: Higher frequencies are shorter wavelengths and lower frequencies are longer wavelengths.Visible light is electromagnet radiation of different frequencies. The different frequencies are the different colors. Just outside the range of frequencies (colors) humans can see are infrared and ultraviolet. Ultraviolet is higher and infrared is lower
Why do higher sound frequencies travel better at night?
Because at night the sun goes down, which is a good thing for frequencies, because the sun is giving of radiation which is disrupting the frequencies. so at night nothing is disrupting the frequencies.
What causes them to have different frequencies on a violin?
the different tensions of the different strings of violin are responsible for different frequencies.
How do you perceive the different frequencies of light waves?
Different frequencies of visible light are perceived as different colors.
What is the frequencies of laser?
They come in different frequencies.They come in different frequencies.They come in different frequencies.They come in different frequencies.
How does cochlea detect different sound frequencies?
The cochlea detects sound frequencies through hair cells that line its inner walls. Different frequencies cause different regions of hair cells to vibrate, which triggers signals to be sent to the brain representing different frequencies. The brain then interprets these signals as different sound frequencies.
The light of the sun is equal to the light of how many candles?
Well, first of all, you have to be more specific. Are you referring to the frequencies of light, the energy of the light, or the brightness? Are you referring to the light all the way around the sun and candle or just what is reaching you eyes or a certain area? Also, results may vary as there are many different kind of candles, measuring the light from the sun may be different around the globe and in different weather and different altitudes. Again, you have to be more specific to get a decent answer.
Since the different kinds of waves have different lengths they also have different?
frequencies. Shorter wavelengths correspond to higher frequencies, while longer wavelengths correspond to lower frequencies. This relationship is described by the formula: frequency = speed of light / wavelength.
How do you get a frequency?
The answer depends on the context: statistical frequencies are different from spectral frequencies.
Are there waves of light and sound?
Yes. Sound waves have different frequencies which cause them to be louder/softer/higher/lower.Light waves have different frequencies too. The shorter the distance between the wavelenghts the darker the color. White light (the normal light the sun gives) is all of the colors together
What will be the effect of mounting two different fm radio antennas with different frequencies on the same mast?
There will be no interference because the antennas are on different frequencies.
