since the period is the reciprocal of frequency, the period is 1/10 seconds.
Frequency is inversely proportional to wavelength (higher frequency means a shorter wavelength). Frequency is directly proportional to the energy of the wave (higher frequencies correspond to higher energies).
frequency = 1/time? If frequency increases, times decreases, so the wave length decreases
Roughly, the spectrum wavelengths are the speed of light divided by the frequency, c/f; 300M/400T=.75 micrometers for Red and 300M/800T=.375 micrometers for Violet..These wavelengths are expressed usually as 750 nanometers and 375 Nanometers.
Limitations in perception of frequency in human hearing correspond to physical structures of the cochlea in the inner ear, directly related to mechanical properties that dictate at which frequencies such structures can resonate. At the microscopic level this amounts to movements of tiny hairs in reaction to sound energy.
since the period is the reciprocal of frequency, the period is 1/10 seconds.
0.1 seconds
Frequency is inversely proportional to wavelength (higher frequency means a shorter wavelength). Frequency is directly proportional to the energy of the wave (higher frequencies correspond to higher energies).
frequency = 1/time? If frequency increases, times decreases, so the wave length decreases
The frequency range used by Bluetooth 802.11b and 802.11g is 2.4 GHz and 5.0 GHz. The device should have a color code label to correspond with the Ethernet support.
High-energy photons correspond to short-wavelength light while low-energy photons correspond to long-wavelength light. In short, the answer is red. For short-wavelengths (high energy photons) it would appear blue.
In my book the pitch of sound is the frequency. Musicians have different names for pitch, like middle C or F sharp, but they all correspond to certain frequencies.The answer above is not correct it is totally unsenceable
Photons with higher energy correspond to electromagnetic radiation with higher frequency/shorter wavelength. In the visible band, the color with the highest frequency is the last one you can see on the VIOLET end of the spectrum.
The sounds of all wind instruments are made by standing waves along some cavity- in this case the body of the clarinet. The body has some resonant frequency which will correspond to the frequency of the sound created. By changing the characteristics of the cavity (Opening valves and so on) this frequency can be changed, and a bunch of different notes can be played.
If the photon is having very less frequency (say v=1Hz) ,then the Energy of such photon will be the smallest one. It can be inferred that the smallest unit of light energy will correspond to the smallest frequency of such quanta. But from the uncertainty principle it limits the energy of a quanta.
You need to correspond with your pen pal. They will think the worst if you do not correspond with them.
Correspond.