The
concept of time is relative to the events; referred as in imperceptible fourth
dimension, such a concept naturally rises within the Human minds as an
inevitable consequence of existential events within perceptible three spatial
dimensions.
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.
Time
is now defined as “the indefinite continued progress of existence and events in
the past, present, and future regarded as a whole in irreversible succession,
referred in fourth dimension above three spatial dimensions.” [Ref1. Wikipedia
– Time.]
Time
standard specifies the method for measuring divisions of time i.e. a time
scale, newer time standard is based on atomic time as per caesium atomic clock.
The standard describes the second is equal to the duration of 9,192,631,770
periods of the radiation corresponding to the transition between the two
hyperfine levels of the unperturbed ground state of the caesium-133 atom.
“The
second, symbol s, is the SI unit of time, defined by taking the fixed numerical
value of the caesium frequency, the unperturbed ground-state hyperfine
transition frequency of the caesium-133 atom, to be 9,192,631,770 when
expressed in the unit Hz, which is equal to s^–1.” [Ref2. The international
reference time scale (UTC) - SI base unit: second (s).]
i.
Time
is called T, the period of oscillation, so that ωT = 2π, or T = 2π/ω. The reciprocal of the period, or the
frequency f, in oscillations per second, is given by f = 1/T = ω/2π.
ii.
Frequency
(f) and time interval (t): The time interval for 1° of phase is inversely
proportional to the frequency. If the frequency of a signal is given by f, then
the time t(deg) (in seconds) corresponding to 1° of phase is t(deg) = 1/(360f) = t/360. Therefore, a 1° phase
shift on a 5 MHz signal corresponds to a time shift of 555 picoseconds (ps).
iii.
The
energy equation is a direct relationship between frequency (f) and energy (E)
because as frequency increases, so does energy, as described by the equation
E=hf. This is possible because (h) is Planck constant.
iv.
Thus,
equivalently, the relationship between the electromagnetic energy (E) and the
wavelength (λ) of electromagnetic wave is an inverse relationship, as described
by the equation E=hc/λ where h is Planck's constant and c is constant as the
speed of light.
v.
Since
wave frequency (f) is inversely proportional to the period of the wave f=1/t
and also inversely proportional to its wavelength (f=c/λ); and thus, the
wavelength (λ) of a wave is directly proportional to the time period (t) of the
wave derives the equation λ∝t
where c is constant, we get the wave corresponds to time shift, e.g.
1°
phase shift on a 5 MHz wave corresponds to a time shift of 555 picoseconds (ps).
t=1/f; f = 5000000 Hz; 1° phase shift = t/360.
t (deg) = (1/f)/360 =
(1/5000000)/360 = (5.55x10^-10) = 555 ps.
·
1°
phase shift for a 59.95 m wavelength (λ), f (5 MHz), time shifts (time delays
Δt) aprox. 555 ps.
·
90°
phase shift for a 59.95 m wavelength (λ), f (5 MHz), time shifts (time delays
Δt) aprox. 50000 ps.
·
360°
phase shift for a 59.95 m wavelength (λ), f (5 MHz - 1 Hz) time shifts (time
delays Δt) aprox. 200000 ps.
·
A
360° phase shift means a complete cycle of the wave, so from the above
calculation, we can say that a 360° phase shift or a complete cycle of a 5 MHz
wave takes 200000 ps (0.0000002 s) to complete one cycle (1 Hz).
·
The
caesium-133 atom used in atomic clocks vibrates at frequencies 9192631770 Hz on
the ground and the GPS satellite clock advances faster than a clock on the
ground by about 38 microseconds per day.
·
(i)
For 1° phase shift of a 9192631770 Hz wave time shifts (time delays Δt) aprox.
0.0000000003021743769660185 ms on the ground i.e. time shifts in a day
0.00002610786616986399 ms on the ground.
·
Time
shift of the caesium-133 atomic clock above the ground:
(ii) For 360° phase shift or, 1
complete cycle (1 Hz), of a 9192631770 Hz wave; aprox.
0.00000010878277570776666 ms.
·
Time
shift of the caesium-133 atomic clock in the GPS satellite in space:
(iii) For 1455.50003025° phase shift
(or, 4.043055639583333 cycles) of a 9192631770 Hz wave; aprox. 0.0000004398148148148148 ms.
time is taken (or, 0.038 milliseconds time is taken per day, or, 38 microseconds
time is taken per day.)
vi.
Gravitational–Electromagnetic
Interaction - Gravitational Redshift: The wavelength (λ) of electromagnetic
radiation will lengthen as it climbs out of a gravitational well. Photons must
expend energy to escape, but at the same time must always travel at the speed
of light (c), so this energy must be lost through a change of frequency (f)
rather than a change in speed (c). If the energy (E) of the photon decreases,
the frequency (f) also decreases. This corresponds to an increase in the
wavelength (λ) of the photon, or a shift to the red end of the electromagnetic
spectrum, hence the name gravitational redshift.
z ~ GM/rc^2
Where z is the gravitational redshift,
G is Newton’s gravitational constant, M is the
mass of the object, r is the photon’s starting distance from M, and c is the
speed of light. In this case, the gravitational redshift suffered by a photon
emitted from the star’s surface is a tiny 3 × 10^-4. In other words,
wavelengths are shifted by less than one part in 30,000.
vii.
Gravitational
field: Two masses (Earth ‘M’ and GPS Satellite ‘m’) separated by a distance (r)
exert gravitational forces on one another. This is called action at-a-distance.
They interact even though they are not in contact. When another body (say a ‘clock’)
is brought in this field, it would experience gravitational force of
attraction. Whereas, gravitational field intensity is the measure of
gravitational field.
Gravitational field intensity or
strength at a point is defined as the force experienced by a unit mass placed
at that point. It is denoted by E. It is a vector quantity. Its unit is N
kg^-1. By considering a body of mass M placed at a point Q and another body of
mass m placed at P at a distance r from Q. The mass M develops a field E at P
and this field exerts a force "F = mE." The gravitational force of
attraction between the masses M and m is F = GMm/r^2. The gravitational field
intensity at point P is E = F/m. Therefore, E = GM/r^2.
Therefore, a clock within the GPS
Satellite would experience lesser Gravitational strength of E = GM/r^2 than it
was experiencing it at the surface of the Earth M at a distance r0 from point
Q, thus GM/r^2 < GM/r0^2.
viii.
Radiation
gravitates - anything that carries energy, momentum and stresses is a source of
a gravitational field. An electromagnetic field have its own gravitational field,
because an electromagnetic field contains energy, momentum and so on, it is
considered as a real thing capable of gravitating, as such, it will produce a
gravitational field of its own. This gravitational field is in addition to that
produced by the matter of the charge or magnet. Electric charges and magnets
are manifestations of certain types of matter, most particularly electrons.
Since matter carries energy (via E=mc^2), such objects will have a
gravitational field and so they will curve the fabric of space. So, one way in
which a charge or a magnet will curve the fabric of space is by virtue of its
matter.
ix.
A
clock and time are two different considerations. A clock does have mass but
time doesn't.
x.
A
clock mechanism 'always follows the order of time,' as it should never work
arbitrary except the order of time, else a clock would cause wrong reading.
xi.
Gravitational
effect on oscillation resulting corresponding time: Frequency and oscillation
can never remain perfectly constant, as long as there is varying effects of
gravity.
xii.
The
events invoke time, when time is independent from eventual influences as such;
free from all fundamental interactions.
xiii.
Existential
events are necessary for time to exist. Time would be meaningless even for an
existence but without events. There is existence of enormous mass and gravity
in the core of a black hole, however, since there is no event; so time is a
meaningless proposition there in the core of a black hole. Absence of event
cause no time in the core of a black hole.
xiv.
The
conceptual time is irreversible in succession and uniformed in scale. In case
of a clock dial; sixty uniformed divisions of seconds need to be within a
circle of 360° exactly, it cannot be >360°, to accommodate time dilation),
nor can be <360°, to accommodate time reduction.
xv.
The
equation of time dilation " T'= T√ (1-V²/C²) " is wrong. The error in
said equation is that time (T) can never be modified - through external
interference or influence or interaction of real event like speed or gravity - to
get Time Dilation (T’). It would be an illegal operation to try to modify cosmic
time (T) progressing in its uniformed and irreversible succession. Speed or
gravity can never interfere time (T) to get time dilation (T'). So called time dilation is rather wavelength (λ) dilation of the clock oscillation.
xvi.
Time
is a higher, fourth dimensional concept, imperceptible to lower, real and
spatial three dimensions. A lower three-dimensional entity can never modify or
interfere or influence a higher, fourth dimensional concept of time. However, a
clock mechanism 'always follows the order of time.' Therefore, the concept of space-time is an absurd proposition by Albert Einstein.
#Time #TimeDilation #SpaceTime #Gravity #Clock #Event #Dimension #Dimensions #Space #Universe #Relativity #WavelengthDilation
