30 December 2022

Planck Length by Max Planck- quoted form Scholarly Community Encyclopedia

In 1899, Max Planck suggested that there existed some fundamental natural units for length, mass, time and energy. He derived these using dimensional analysis, using only the Newton gravitational constant, the speed of light and the Planck constant - it  was not yet called then.

Planck length, denoted ℓP, is a unit of length in the system of Planck units that was originally proposed by physicist Max Planck, equal to 1.616255(18)×10^−35 m

The Planck length can be defined from three fundamental physical constants: the speed of light, the Planck constant, and the gravitational constant. 

The Planck length is expected to be the shortest measurable distance, since any attempt to investigate the possible existence of shorter distances, by performing higher-energy collisions, would inevitably result in black hole production.

The Planck length is approximately the size of a black hole where quantum and gravitational effects are at the same scale: where its Compton wavelength and Schwarzschild radius are approximately the same

The Planck length is about 10^−20 times the diameter of a proton

The Planck length is the length at which quantum zero oscillations of the gravitational field completely distort Euclidean geometry. The gravitational field performs zero-point oscillations, and the geometry associated with it also oscillates.

Reference: Planck Unit - from Scholarly Community Encyclopedia

28 December 2022

Time shift in GPS Sattelites:

The GPS satellites orbit at an altitude of about d = 20,000 km.

Experiments carried out in electronic laboratories on piezoelectric crystal oscillator show that the variations in wavelength, due to relativistic effects, correspond to time shift.

We also know that  wavelength (λ) of a wave is directly proportional to the period (T) of the wave, i.e. λ ∝ T, derived from f = E/h
= 1/T = v/λ

The time interval T(deg) for 1° phase is inversely proportional to the frequency (f). We get a wave associated with time change.

For example, a 1° phase shift in a 5 MHz wave corresponds to a time change of 555 picoseconds:

As we know, 1° phase shift = T/360.
As T=1/f, 1° phase shift = T/360
= (1/f)/360.

For a wave of frequency f = 5 MHz, we get the phase shift (degrees°).

= (1/5000000)/360
= (5.55x10^-10)
= 555 ps.

Thus, for a 1° phase shift for a wave frequency f = 5 MHz, the time shift (time delay) Δt = 555 ps (approx).

Accordingly, for a 360° phase shift (one complete cycle: 1Hz.) of 9192631770 Hz wave of Cesium-133 atomic clock, the time shift (time delay) Δt = 0.0000001087827757077666 ms.

Therefore, for a 1455.5° phase shift (or, 4.0430556 cycles) of the 9192631770 Hz wave of the Cesium-133 atomic clock, time variation (time delay) Δt = 0.0000004398148148148148 ms
or, 38 microseconds are taken per day.

Conclusion: Relative time emerge from relative frequencies. It is the phase shift in relative frequencies due to infinitesimal loss in wave energy and corresponding enlargement in the wavelengths of oscillations; which occur in any clock between relative locations due to the relativistic effects or difference in gravitational potential, results error in the reading of clock time, which is wrongly presented as time dilation.

#GPS #GPSSatellites

24 December 2022

Einstein's theories of relativity seem less original but contextualized by the work of other scientists:

My strong feeling is that Einstein's theories of relativity do not represent a pure and dedicated scientific work. Although his works are fundamental in character, and they are of a very high level - this is why his work should have included considerable self-observation and experimentation - as we see in the dedicated works of Max Planck and other scientists. Rather, Einstein's theories of relativity seem to derive from or refer to the work of other scientists.

Since Einstein's works are highly contextualized by the work of other scientists, and his work is less original, it is unfortunate and problematic that any scientific review or criticism of Einstein's work that seeks to falsify it must first accurately falsify the work of other scientists, only then will it be possible to begin attempts to falsify any of Einstein's works.. This would not have been the case if Einstein's theory of relativity had been Einstein's original work. Einstein seems to have carefully formulated his theories of relativity so that attempts to falsify them are not easy.

Relative time is derived from relative frequency. It is the phase shift in relative frequency due to the infinitesimal loss of wave energy and the corresponding increase in the wavelength of oscillation; which occurs at any clock between relative positions due to the relativistic effect or difference in gravitational potential; result error in the reading of clock time; which is incorrectly represented as time dilation.

As T=1/f,

1° phase shift = T/360 = (1/f)/360.

For a wave of frequency f = 5 MHz, we get the phase shift (degrees °).

= (1/5000000)/360

= (5.55x10^-10)

= 555 ps.

  • Planck time ~ 5.39×10^−44 seconds
  • Planck length ~ 1.61626×10^−35 m
  • Therefore, c =~3x10^8 m/s

Einstein's theory of special relativity claims to take away the independence of time and make time 'natural', where the proper time (t) depends on the gravitational effect or relativistic effect and is expressed as t < t' where t' is time dilation, contradicting this expression The classical mechanics expression is t = t' where time (t, t') is absolute.

Einstein's equation of time dilation is wrong as it is a conjectural equation based on the classical Doppler formula. The experimental results given below refute the conjectural equation of time dilation and have been able to disprove it altogether. The theory of special relativity states that the proper time (t) is dependent on the relativistic effect expressed as t < t' where t' is the time dilation.

Real events invoke time. The drawback of the time dilation equation t՚ = t/√(1-v²/c²) is that the gravitational or relativistic effect of real phenomena can never correspond to the proper time (t) - referred to in the fourth dimension. This means that the real part of the equation {1/√(1-v²/c²)} cannot affect or interact with the proper time (t) so, the dilated time (t’) does not enlarge but remains the same as in the proper time (t)., as in the expression is t = t'.

Experiments carried out in electronic laboratories on piezoelectric crystal oscillator show that the waves are consistent with time variations due to relativistic effects.

We find that the wavelength λ of a wave is directly proportional to the period of the wave, i.e. λ ∝ T derived from the wave equation f = 1/T = v/λ = E/h where the wavelength λ of a wave is directly proportional to the period T.

Where, the time interval T(deg) for 1° phase is inversely proportional to the frequency (f). We get a wave associated with time change.

For example, a 1° phase shift in a 5 MHz wave corresponds to a time change of 555 picoseconds (ps). The evidence is:

As we know, 1° phase shift = T/360.

Therefore, for a 1° phase shift for a wave of wavelength λ = 59.95m, and frequency f = 5 MHz, the time shift (time delay) Δt = 555 ps (approx).

Furthermore, for a 360° phase shift or, 1 complete cycle for a wave with a frequency of 1Hz (of a 9192631770 Hz wave); Time shift (time delay) Δt = 0.0000001087827757077666 ms (approx).

Cesium-133 atomic clock time change on GPS satellites in space:

For a 1455.50003025° phase shift (or, 4.043055639583333 cycles) of the 9192631770 Hz wave; Time variation (time delay) Δt = 0.0000004398148148148148 ms (approx) or, 38 microseconds are taken per day.

Conclusion: Wavelength enlargement of clock oscillations due to relativistic effects, or gravitational potential differences in clock mechanisms caused similar errors in clock time readings, erroneously represented as time dilation. Time dilation is rather wavelength dilation.

My opinion about space and time: I think that space is rather a three-dimensional (x, y, z) mathematical concept, where real force fields exist and interact, rather than a fabric of space-time. Nothing interact space or time. There are only inter-energetic field interactions.

By interprating Max Planck, the velocity limit of a gravitationally bound object is: There is a certain speed limit to which gravitationally bound objects can travel. 

However, such a constraint does not apply to metric expansion within intergalactic space affected by antigravity caused by dark energy; whose effective mass, as it appears, is less than zero (<0).

Max Planck showed us that anything above a threshold frequency becomes meaningless to us. The Planck length is the smallest possible length beyond which the application of known laws of physics becomes meaningless. So that the Planck length is the limit where frequency can be meaningful to us, but beyond that limit any wave frequency that carries information will be imperceptible to us.

Accordingly, the velocity of electromagnetic waves or light is equal to one Planck length per Planck period; The limit at which a gravitationally bound object can travel. This value is equal to c.

So, before relativity came into existence, Planck's law could have determined the speed of light.

20 December 2022

According to Max Planck Constant velocity of Light:

According to Max Planck the velocity of electromagnetic waves equals to one Planck length per Planck time; the limit to which photon can travel. 

Planck time ~ 5.39×10^−44 s.

Planck length ~ 1.61626×10^−35 m. 

Therefore, speed of electromagnetic wave is constant through the equations of Max Planck and Combined with Albert Einstein. 

c = ~3x10^8 m/s = fλ = √E/m.

16 December 2022

Planck velocity equals one Planck length per Planck time:

It seems, in 1900 Max Planck's equation was primarily E = f(λ). In 1905 Einstein promoted c = fλ.

The world over knows c is devised in the theory of special relativity, where c = fλ = √E/m.

However, according to Max Planck the velocity of electromagnetic waves, or light, is equal to one Planck length per Planck time; the limit to which photons can travel. 

  • Planck time ~ 5.39×10^−44 s.
  • Planck length ~ 1.61626×10^−35 m.
  • c =~3x10^8 m/s.


Addressing the question, "Should we abandon the multiverse theory?"

While my intention is clear as described in my previous post wherein I have mentioned,

i.  "Physical science must be physical"

ii. "Abstract concepts are pure mathematical"

iii. "Max Planck limits (our) reality.

iv "Events invoke Time"

The above-mentioned itemized premises probably indicate that multiverse theory is abstract in its properties, like the abstractions of mathematics.

Proving these would certainly not be possible because the natural limits of our interactions are limited to three-dimensional space and, according to Max Planck, anything above Planck units would be meaningless to us.

We cannot perceive any possible event beyond our limits in the Planck length because events invoke time. So impossibility in perception means impossibility in origin of time.

Importantly, there are some entities with semi-real properties like dark energy or even dark matter and black holes, they seem to exist outside the boundaries of the Planck frequency but their only interactions with reality make them semi-real until we can establish. As they are completely real.

Quasi-realism is the meta-ethical view which claims that: Ethical sentences do not express propositions. Instead, ethical sentences project emotional attitudes as though they were real properties.

Therefore, there should be no barriers to exploring multiverse theory, just as we explore abstraction in mathematics. Such explorations may actually improve our understanding.

However, strictly speaking, such explorations need to be limited and promoted only as abstractions and not as a possible reality - as if they could never be proved or disproved - as per the definition of reality.

Soumendra Nath Thakur


#Multiverse

15 December 2022

In review: Should we abandon the multiverse theory?

Reslved : Addressing the question, "Should we abandon the multiverse theory?"

My comment is due for the message of the video attached. Still watching it. 

Prima facie - Dr. Sabine seems rational. Dr. Penrose seems experienced, and for Dr. Kaku I reserve even my prima facie comment.

While I think physical science needs to be physical, abstract ideas are mathematical and does not depend on reality. Max Planck limits our reality  Where events invoke time. I value meaningfulness more.

Mathematics as abstract science and fundamental concepts: The abstract science of numbers, quantities, and space, applied either as abstract concepts, known as pure mathematics, or as applied to other disciplines such as physics and engineering known as applied mathematics.

Mathematical objects can best be described by abstraction, the process of extracting the underlying structure, patterns, or properties of a mathematical concept that is detached from their reference to real-world events and situations and devoid of content connected to the particular applications to which it may belong. Originally attached. It has a wide range of applications or similarities among other abstract descriptions of equivalents.

On the other hand, fundamental mathematical concepts are closely related to the real world, and therefore learning applied mathematics involves experiential concepts, the application of problems arising in different fields, such as science, engineering or the development of new or improved methods to meet the challenges of new problems.

#SabineHossenfelder #RogerPenrose #MichioKaku #abstractidea #mathematics #abstractioninmathematics

14 December 2022

Contrast between contraction and expansion of universal existence.

The energy from the Big Bang drove the early expansion of the universe. Since then, gravity and dark energy have been involved in a cosmic tug of war. Gravity pulls galaxies closer together; dark forces push them away. A singularity is a point where some property is infinite. For example, at the center of a black hole, according to classical theory, the density is infinite, because a finite mass is compressed into a zero volume. So it is a singularity.

Universal contraction.
1. A black hole is a region of three-dimensional space where a gravitational field is so intense that no matter or radiation can escape. Gravity is so strong there because matter is squeezed into a tiny space. This is one of the similar phenomena of universal contraction.

Universal expansion.
2. The Big Bang is the rapid expansion of matter or energy from conditions of extremely high density and temperature in a point like state that marks the origin of the universe according to current cosmological theory. In the early stages of the Big Bang, the universe underwent a period of extremely rapid expansion in its first few moments, known as exponential expansion or inflation. However, dark energy is a hypothetical form of energy that exerts a negative, repulsive pressure, behaving like the opposite of gravity. This has been hypothesized to account for some observational properties, which show that the universe is undergoing an accelerated expansion. These are universal expansions.

#universalcontraction #universalexpansion


Tug of war between gravity and antigravity:

Gravity pulls galaxies closer together; dark energy pushes them apart. 

Whether the universe is expanding or contracting depends on which force dominates, gravity or dark energy.

Scientifically it is understood that inside galaxies baryonic and dark matters overcome dark energy so gravity wins and keeps galaxies together but when it comes to intergalactic space, it is said that dark energy overcomes baryonic and dark matters and wins the fight, so galaxies are moving away.

Besides there is zero gravity spheres around each gravitationally bound objects, either in galactic form or any forms of clusters of galaxies. 

It is understood that the gravitating mass of dark energy is <0. 

#DarkEnergy #antigravity #baryonicmatter #darkmatter #gravity

12 December 2022

Predictions interpreted for non-gravitational wave particles:

There appears to be no limit to the speed of non-gravitational energetic wave particles, as their effective mass can be less than zero < 0, they appear to travel faster than the speed of electromagnetic radiation in intergalactic space. 

If, at all, such wave particles are gravitationally bound, then the point of universal singularity should be the locational point at which the entire universal mass once existed.


অ-মহাকর্ষীয় তরঙ্গ কণার ব্যাখ্যাকৃত পূর্বাভাস:

অ-মহাকর্ষীয় কর্মশক্তিপূর্ণ তরঙ্গ কণার গতিতে কোন সীমাবদ্ধতা নেই বলে মনে হয়, কারণ তাদের কার্যকর ভর শূন্য <0 এর কম হতে পারে, মনে হয় তারা আন্তঃগ্যালাকটিক মহাকাশে ইলেক্ট্রোম্যাগনেটিক বিকিরণের গতির চেয়ে দ্রুত গতিতে চলে। 

যদি, আদৌ, এই ধরনের তরঙ্গ কণাগুলি মহাকর্ষীয়ভাবে আবদ্ধ হয়, তাহলে সর্বজনীন এককতার বিন্দুটি এমন অবস্থানগত বিন্দু হওয়া উচিত যেখানে সমগ্র বিশ্বজনীন ভর বিদ্যমান ছিল।

11 December 2022

Relationship among frequency, phase shift (in degree) and time period:

• The wave (electromagnetic wave carried by photon - gauge boson) starts at the 0-degree phase (0 radians) and has no amplitude.

• The wave reaches positive peak amplitude at the 90-degree phase (0.5π radians).

• The wave returns to its amplitude rest position at the 180-degree phase (π radians).

• The wave reaches negative peak amplitude at the 270-degree phase (1.5π radians)

• Finally, the wave reaches zero peak amplitude at the 360-degree phase (2π radians).

Frequency (f) is inversely proportional to the period of its oscillation i.e. f=1/T.

A complete cycle of wave (i.e. f=1Hz) consists of 360° of phase.

=> 1° phase shift = T/360.

=> 90° phase shift = 90T/360.

=> 180° phase shift = 180T/360.

=> 270° phase shift = 270T/360.

=> 360° phase shift = T (=360T/360)

This means a complete cycle of wave (f= 1 Hz) has 360° of its phase.

Time period (T) of a cycle (with 360° phase) of wave, when it's frequency f=1 Hz.

And therefore, 360° phase = T (period of the wave).

 

#frequency #wave #cycle #phaseshift #degree

The limit in velocity of gravitationally bound objects according to Max Planck:

There is a certain speed limit to which gravitationally bound objects can travel.

However, such a constraint does not apply to metric expansion within intergalactic space affected by antigravity caused by dark energy; whose effective mass is less than zero (< 0).

Max Planck showed us that anything beyond the threshold frequency would become meaningless to us. The Planck length is the smallest possible length beyond which the application of known laws of physics becomes meaningless. So that the Planck length is the limit at which frequency wavelengths can be meaningful to us, but beyond that limit any information that the frequency carries will disappear to us.

Accordingly, the velocity of electromagnetic waves, or light, is equal to one Planck length per Planck time; the limit to which gravitationally bound objects can travel. This value is equal to c.

  • Planck mass ~ 22 microgram.
  • Planck time ~ 5.39×10^−44 s.
  • Planck length ~ 1.61626×10^−35 m
  • c =~3x10^8 m/s.

Thus, before relativity came into existence, Planck's law could have determined the speed limit of light.

10 December 2022

Effects of various influences in photon frequency:

  1. Max Planck proposed this equation E = h f. Plank’s constant describes the energy of a photon increases when the frequency of its electromagnetic wave increases by 1 SI time Unit.
  1. Time is called T, the period of oscillation, so that T = 2π/ω.
  1. The reciprocal of the period or, the frequency f, in oscillations per second, is given by f = E/h = 1/T = ω/2π = v/ λ.
  1. Time interval T(deg) for 1° of phase is inversely proportional to the frequency (f). We get a wave corresponding to the time shift. 1° phase shift on a 5 MHz wave corresponds to a time shift of 555 picoseconds (ps).
  1. The infinitesimal loss in wave energy (ΔE) due to various effects like gravitational, spatial expansion or Doppler, correspond to phase shifts of the wave in degree (°) resulting time shifts (Δt) and corresponding enlargement in the wavelength (Δλ) of the wave, this is how redshift occurs in general.

Effects of various influences in photon frequency:

i.Phase shift in photon wave frequency enlarges its wavelength; as photons expend energy leaving a gravitational well.

ii.Additionally, phase shift in photon wave frequency can also enlarge its wavelength; as the source of the photon receding another observing body.

iii.In addition to these effects, the phase shift in photon wave frequency can also enlarge its wavelength; when the metric distance between the photon source and its reception points expands.

iv.Finally, phase shift in photon wave frequency can also reduce its wavelength; when photon entering a gravitational field; but such reduction in wavelength is incidental and cease, wavelength restored on photon leaving that gravitational field, as such, red shift or blue shift can occur in the wavelengths of the photon wave depending upon its gravitational emission, recession, distance expansion or approaching and also temporary gravitational field interaction, only in the gravitational field interaction, such reduction of wavelength is temporary effective, leaves no after effect in original wavelength of the photon,  these (shifts) are know as red shift or blue shift of wave oscillations of the photon,

v.Moreover, enlargement in photon wavelength corresponds to infinitesimal error in time reading of wave oscillation, wrongly known as time dilation.

However, in case of effective error in time of a photon entering gravitational field set to zero, as soon as a photon leaving such gravitational field, this means, as soon as a photon leaves a gravitational field of a massive body, it retains its own frequency, and since speed of photon is constant, temporary error caused in the phase shift of photon frequency get cancelled out, making the effective time error reset to zero.

The photon continues to carry relevant information in it since, it's carrying from its emission.

#errorintime #phaseshifts #photn #wave #oscillation