19 October 2022

Does time exist?

Time is the indefinite continued progress of existence and events in the past, present, and future regarded as a whole, succeeds in irreversible and uniformed succession, referred in fourth dimension above three spatial dimensions.

Time is an imperceptible fourth dimensional concept so protected from real interference or, influence or, interaction with the cosmic events. The events rather invoke time.

The term cosmic time signifies a relationship between the time since the Big Bang and the events within the Universe. The distortion in proper time always originates from wavelength distortion, including in special relativity, and therefore proper time subject to synchronization with ideal time in near approximation, as done with the atomic clocks.

Time is called T, the period of oscillation, so that T = 2π/ω. The reciprocal of the period, or the frequency f, in oscillations per second, is given by f = 1/T = ω/2π.
Nobody singly invented time. It was rather discovered by the human kind through the observations of events.

Distortions of wavelengths exactly correspond to time distortions λ∝T, where λ is the wavelength of the wave and T is time period of the wavelength.

Time exists in concept.

Ancient Indian and Greek philosophers were among the first to question time as a mysterious concept. Ever since Human beings existed, they have always tried to make sense of the Universe, accordingly, conceptualised time by observing the events in the nature; as such they have used archaic devices like, candle clock, sundial, water clock, sand clock etc.

Nowadays, clocks all over the world are based on seconds, minutes, and hours. The first mechanical clock said to have invented in 1275 by replacing archaic devices, and in 1656 first pendulum clock was made. The quartz clock was invented in 1927 and the atomic clock in 1948. 

Reasons of various redshifts

Summary:

"The reasons of the red-shifts (z, >1) are actually the results of lowered energy (E) of the waves or, lowered frequency (f) of the waves or. increased wavelength (λ) of the waves. The wavelength of the wave vibrations change due to phase shift of the vibration frequencies, and so ultimately the wavelengths shift to the red side in the electromagnetic spectrum depending upon the energy decrease of the wave vibration due to various effects like Doppler, relativistic and expansion of space. And also, in case of energy increase of the wave, the phase-shift will result shorter wavelengths to shift the wavelength towards the blue side of the electromagnetic spectrum."

Explanation:

Vibration (frequency) can be two dimensional i.e. up and down in x-y plane and also back and forth in x-z plane, when electromagnetic vibrations occur in both planes simultaneously, so frequencies of these vibrations of both planes are synchronised normally and those phases of vibrational waves began from the origin location (0,0,0) normally.

The equations those are relevant here are f=c/λ=E/h=1/T, when 1° phase shift = T/360.

However, in case of (i) relative movement from such a vibration or (ii) for relativistic effects, or (iii) cosmic expansions, the phase of the vibrational frequencies shift from its earlier position (say 0,0,0) to a new position due to relevant interactions out of these effects.

The time interval T(deg) for 1° of phase is inversely proportional to the frequency (f). We get a wave corresponds to time shift, and for 1° phase shift on a 5 MHz wave corresponds to a time shift of 555 picoseconds, and so on, for corresponding phase shifts in degee (°).

As a result, the wavelength of the vibration changes due to phase shift of the vibration frequencies, and so ultimately it shift to the red side in the spectrum relevant depending upon the energy decrease of the vibration due to various effects said or in case of energy increase the phase shift will result shorter wavelength to shift towards blue of the spectrum relevant.

This is what happens irrespective of the vibrations is in plane or in space."

#Redshifts #DopplerRedshift #GravitationalRedshift #CosmicRedshift #Wavelength #Frequency #WaveEnergy #PhaseShift