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Is a wave with a frequency of 5x1016 hz visible?
No, a wave with a frequency of 5x10^16 Hz would be in the far-ultraviolet range, which is beyond the visible spectrum. Our eyes are only sensitive to light within a certain range of frequencies, typically between approximately 4x10^14 Hz (purple) and 7.5x10^14 Hz (red).
What is the speed of a wave when the frequency of the wave is 80 hertz and 16 cm?
The speed of a wave can be calculated using the formula v = fλ, where v represents the speed of the wave, f is the frequency (80 Hz), and λ is the wavelength (16 cm). Simply multiply the frequency and the wavelength to find the speed of the wave.
If this wave travels at 16 cms it's wavelenght would be?
To calculate the wavelength, you can use the formula: wavelength = speed of wave / frequency. However, to calculate the wavelength, we need to know the frequency of the wave in addition to the speed. If you provide the frequency of the wave, we can calculate the wavelength.
As you sit on a dock you notice a wave crest pass You count another four wave crests in the next 12 seconds What is the frequency of these waves?
16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.
As you sit on a dock you notice a wave crest pass You count another 16 wave crests in the next eight seconds?
The frequency of the waves passing you is 2 Hz (2 cycles in 1 second) since you counted 16 wave crests in 8 seconds.
Is a wave with a frequency of 5x1016 hz visible?
No, a wave with a frequency of 5x10^16 Hz would be in the far-ultraviolet range, which is beyond the visible spectrum. Our eyes are only sensitive to light within a certain range of frequencies, typically between approximately 4x10^14 Hz (purple) and 7.5x10^14 Hz (red).
What is the speed of a wave when the frequency of the wave is 80 hertz and 16 cm?
The speed of a wave can be calculated using the formula v = fλ, where v represents the speed of the wave, f is the frequency (80 Hz), and λ is the wavelength (16 cm). Simply multiply the frequency and the wavelength to find the speed of the wave.
If this wave travels at 16 cms it's wavelenght would be?
To calculate the wavelength, you can use the formula: wavelength = speed of wave / frequency. However, to calculate the wavelength, we need to know the frequency of the wave in addition to the speed. If you provide the frequency of the wave, we can calculate the wavelength.
As you sit on a dock you notice a wave crest pass You count another four wave crests in the next 12 seconds What is the frequency of these waves?
16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.
As you sit on a dock you notice a wave crest pass You count another 16 wave crests in the next eight seconds?
The frequency of the waves passing you is 2 Hz (2 cycles in 1 second) since you counted 16 wave crests in 8 seconds.
What multiplied by 2 equals 50?
It is: 16 and 2/3 times 3 = 50
If wavelength is 15 nm what is the frerquency?
Frequency = (speed) / (wavelength), so it depends on the speed of the wave. If it's a light wave, then the frequency is (3 x 108) / (15 x 10-9) = 20,000,000 GHz. If it's a sound wave, then the frequency is (343) / (15 x 10-9) = 22.9 GHz.
What is the frequency of 16?
It depends on the units of 16. If it is 16 Hertz, then the frequency is 16 (per second).
What is the wavelength of a 320 Hz sound?
Very simple formula: speed of the wave = frequency x wavelength This is applicable for both mechanical waves such as sound and electromagnetic waves such as visible light. In case of sound the speed at room temperature would be almost 340 m/s. Hence wavelength = 340/320 = (17/16) m
What is the length of a 60 hertz sine wave?
Period = 1/frequency = 1/60 = 16 and 2/3 milliseconds
What is the speed of an electromagnetic wave with a frequency of 7.75 x 1016 Hz and a wavelength of 3.87 nm?
The speed of an electromagnetic wave can be calculated using the formula: speed = frequency x wavelength. Plugging in the values provided (7.75 x 10^16 Hz and 3.87 nm), the speed of the wave would be approximately 3.00 x 10^8 m/s, which is the speed of light in a vacuum.
What do you mean by frequency below sixteen hertz?
That means a sound or other wave that wiggles less than 16 times per second. (Less than 16 complete waves pass a fixed point each second.) 20 Hz is generally regarded as the lowest frequency that human ears can hear.
