max planck
The amount of energy in a photon of light is proportional to the frequency of the corresponding light wave.... frequency of the electromagnetic radiation of which the photon is a particle.
A particle of light. Or, in general, of an electromagnetic wave.
A wave is a a moving oscillation that transfers energy through a medium. A particle is an object.
Physically, light of different colors differs:* In their wavelength * In their frequency (note: the longer the wavelength, the lower is the frequency - so, they are inversely proportional) * In the energy per particle (photon) - proportional to the frequency
time taken by pendulum/to complete 1 oscillation
The amount of energy in a photon of light is proportional to the frequency of the corresponding light wave.... frequency of the electromagnetic radiation of which the photon is a particle.
I think you might be referring to photons here. Planck came up with this idea, saying that light in some circumstances behaves as particles each with an energy equal to h (Planck's constant) times the frequency of the light. The mathematical consequences of this explained the spectral distribution of wavelengths emitted by hot sources.
Wave.
A particle of light. Or, in general, of an electromagnetic wave.
A wave is a a moving oscillation that transfers energy through a medium. A particle is an object.
Physically, light of different colors differs:* In their wavelength * In their frequency (note: the longer the wavelength, the lower is the frequency - so, they are inversely proportional) * In the energy per particle (photon) - proportional to the frequency
Wavelength and frequency are inversely proportional. The higher the frequency, the shorter (lower) the wavelength. Energy is proportional to frequency, and higher frequency waves will have a higher energy. Mathematically, frequency = 1 divided by wavelength, or f = 1/λ Use the link below for more information, including a diagram or two to make things clearer.
time taken by pendulum/to complete 1 oscillation
According to Newton's Second Law of Motion,F=ma, where F is the applied force, m is the mass of the particle and a is acceleration of the particle. Thus, Force, F is directly proportional to mass.
It is proportional if the velocity doesn't change over time.
Amplitude measures the amount of particle vibration.
its the time taken for one complete vibration.