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).
I think there is no relation between intensity of a light wave and its frequency. Intensity of a light wave depends upon the number of photons emitted where as frequency is different.
What is the colour of burp? Ans:burple!
I=a2
It's a direct relationship; higher frequency gives you a higher pitch.
What is the relationship between electrical frequency and magnetic field speed for an ac machine
Wave speed = (Wavelength) times (frequency).
the higher the frequency, the higher the energy
I=a2
I=a2
It doesn't, from the equation E = h*f (E is energy, h is Planck's constant, f is frequency) you can clearly see that energy is a function of frequency, not amplitude (intensity). Therefore, it doesn't even matter what the relationship between stopping potential and energy is, because it will only depend on frequency, which is sufficient knowledge to answer this question.
7
less light intensity gives a better vision
speed = frequency x wavelength
frequency intensity time increase them to apply overload
It's a direct relationship; higher frequency gives you a higher pitch.
What is the relationship between electrical frequency and magnetic field speed for an ac machine
The relationship between light intensity and photosynthetic rate is that if the intensity of the light is high then the rate of photosynthesis will increase. However the rate of photosynthesis will only increase to an extent after intensity of light reaches a certain point photosynthesis rate will stay still.
Wave speed = (Wavelength) times (frequency).
Speed of the wave = frequency x wavelength