its temperature
refer to ph106 book
I assume you are asking in regard to the photoelectric effect. The intensity of the photons can be viewed as the brightness of the light. However, the frequency is the number of wavelengths that pass a certain point in a second. The frequency is also used to determine the energy of the photon (E=hf).
More important for what. If you use the analogy with sound, the frequency of light is the pitch of the sound (also the frequency of the sound waves), and the intensity is how loud it is. Both are equally important, but for different reasons. Sometimes you want a low frequency, sometimes you want a high frequency. Sometimes you want low intensity, others high intensity. Depends what you want it for.
Loudness depends on the amplitude. square of amplitude is proportional to the loudness. Pitch is decided by the frequency. One can sing at higher pitch but at lower voice.
Depends on the wave. In electromagnetic waves, a shorter wavelength means a higher frequency - and the energy of a photon is directly proportional to frequency.
The photoelectric current is directly proportional to intensity.It also depends upon frequency, but frequency more than "THRESHOLD FREQUENCY" does not effect the current.The no. of electrons emitted per second by a photo-sensitive surface is directly proportional to the intensity of the incident radiations.So,the photoelectric current depends upon the intensity of the incident radiations.
refer to ph106 book
I assume you are asking in regard to the photoelectric effect. The intensity of the photons can be viewed as the brightness of the light. However, the frequency is the number of wavelengths that pass a certain point in a second. The frequency is also used to determine the energy of the photon (E=hf).
The running frequency and duration depends with the age and the altitude. For a maximum heart rate the training intensity is between 85 and 90 percent.
The running frequency and duration depends with the age and the altitude. For a maximum heart rate the training intensity is between 85 and 90 percent.
More important for what. If you use the analogy with sound, the frequency of light is the pitch of the sound (also the frequency of the sound waves), and the intensity is how loud it is. Both are equally important, but for different reasons. Sometimes you want a low frequency, sometimes you want a high frequency. Sometimes you want low intensity, others high intensity. Depends what you want it for.
The running frequency and duration depends with the age and the altitude. For a maximum heart rate the training intensity is between 85 and 90 percent.
actually, inductance is directly proptional to the frequency according to the formula , so if frequency is more, then inductance is also more and vice versa
it depends on the intensity of your workout and your goals... FITT it just an acronym for basic training guidelines *(frequency, intensity, time and type I believe) these are all factors that one should switch regularly to avoid body adaptation leading to plateaus
Loudness depends on the amplitude. square of amplitude is proportional to the loudness. Pitch is decided by the frequency. One can sing at higher pitch but at lower voice.
Depends on the wave. In electromagnetic waves, a shorter wavelength means a higher frequency - and the energy of a photon is directly proportional to frequency.
No. Kinetic Energy of a photon depends only on the frequency of the light (or in other words frequency of the photons which the light comprises of). Intensity of light, on the other hand, is a way to talk about how many photons are there in, say, a beam of light (putting it in simple words)!