1. Fundamental interactions are irreducible forces those act between the elementary particles composing all matter. There are four fundamental forces in the universe - the strong force, the weak force, the electromagnetic force, and the gravitational force. They work over different ranges and have different strengths. The strong nuclear force is the strongest and gravity is the weakest of the four fundamental forces of nature, but gravity has a far reaching range.
2. The elementary particles are fundamental particle or subatomic particle those are not composed of other particles. The three basic types of known elementary particles are leptons, quarks and gauge bosons. The leptons type subatomic particle are electron, muon, or neutrino, they do not take part in the strong interaction. A quark is a fast-moving point of energy. The quarks make up an atom's nucleus, viz. protons and neutrons, each proton and neutron contains three quarks respectively. There are six types of quarks up, down, charm, strange, top, and bottom.
3. The gauge bosons are carrier particles for three of the four fundamental forces. A gauge boson is a bosonic elementary particle that acts as the force carrier for elementary fermions. Elementary particles, whose interactions are described by a gauge theory, interact with each other by the exchange of gauge bosons, usually as virtual particles. There are four kinds of gauge bosons. W and Z bosons, which carry the weak force. Gluons, which carry the strong force. Photons, which carry the electromagnetic force.
4. A photon is an example of a boson as it has a spin of 1 and carries electromagnetism. A photon is an elementary particle representing a quantum of light or other electromagnetic radiation viz. radio waves, known as the quantum of the electromagnetic food. A photon carries the electromagnetic energy proportional to the radiation frequency but has zero rest mass.
5. Gravity and electromagnetism are two of the four fundamental forces, out of the four fundamental forces. There are many similarities between electromagnetic (EM) radiation and gravitational radiation - both travel at the speed of light; both carry energy away from their sources; both consist of transverse waves with two polarizations. The main difference between gravity and electromagnetism is that gravity is a force between masses whereas electromagnetism is a force between charges.
6. A photon (electromagnetic radiation) interacts with gravitational radiation and carry away energy from their respective sources.
#FundamentalInteractions #ElementaryParticles #Gravity #Electromagnetism #Photon
15 April 2022
Fundamental interactions - Interaction between Gravity and Electromagnetism: (1-6)
27 February 2022
Bending of travelling path of a photon or spacecraft.
Summary: A photon exchanges momentum as it bypasses a large gravitational well during transit. The photon experiences a change in momentum and its path is bent as it interacts with the gravitational field. A photon simultaneously gains and loses momentum (p) from a gravitational interaction with a massive object. However, a photon maintains its relative path with speed c and covers the same distance (d) as compared to its constant speed. The curvature of the photon's path is understood in terms of the exchange of momentum experienced by the photon.
Relevant equations: p = E/c, constant = c = 299792458 m/s, distance = (speed x time) = (c m/s * s)
Bending of the travelling path of a body when its speed is unchanged: - photon, spacecraft:
The bending of photon's path is due to it's constant speed @c but it's increased energy and frequency corresponding to the increased gravitational influence on it.
Since photons speed is constant, an incremental change in it's energy and/or frequency makes the photon change it's path bent.
It's like gravity assist (sling shot) by a massive planetary body to a bypassing spacecraft in a condition when the speed of the spacecraft remains unchanged but its path bends as its kinetic energy increases.
What happens in the background:
When the photon maintains a constant speed @c, and increases its Energy, it is bound to increase its frequency too. Such increased frequency, at its constant speed, does not allow the photon to maintain a straight path anymore, as the gained frequency deviates the photon path from its apparent straight path to a bent path until the the photon reaches its earlier frequency.
The gain of its energy is temporary - temporarily synchronised. Photon frequency synchronised with gravitational field - transfers energy to the photon.
So (E'-E) deviates the path of the photon and bends, since the photon cannot increase it's constant speed, it bends.
Note: The momentum of a photon is directly proportional to its frequency and inversely proportional to its wavelength. Photons momentum is given by p=hλ, where λ is the photon wavelength. Photon energy and momentum are related by p=Ec , where E=hf=hcλ for a photon
#gravityassist #slingshot #increadedenergy #increasedfrequency
The Universe (13.8 billion years) - unobservable (23 trillion ly.) and observable (46.5 billion ly.)
Beyond the visible universe, the invisible or the unobservable universe must be at least 23 trillion light years in diameter, and contain a volume of space that's over 15 million times as large as the volume we can observe. So that no signal can travel faster than light, hence there is a maximum distance beyond which nothing can be detected, as the signals could not have reached us yet.
03 January 2022
Question on second LaGrange point (L2):
The Lagrange points are points of equilibrium for 'small mass objects' under the influence of two massive orbiting bodies. This means these points are positions in space where the gravitational forces of a two body system like the Sun and the Earth produce enhanced regions of attraction and repulsion. These can be used by spacecraft (here the Webb is in consideration) to reduce fuel consumption needed to remain in position.
The James Webb Space Telescopes will orbit the sun 1.5 million kilometers away from the Earth, what is called the second Lagrange point or L2.The spacecraft will orbit Earth-sun Lagrange point 2, or L2.
L2 is a point located on the side opposite to the Sun, as it orbits the Sun. In this orbit, the Webb Telescope can maintain a safe distance from the bright light of the Sun, Earth, and Moon, while also maintaining its position relative to Earth.
See the image below where the Webb is located behind the Earth facing Sun.
31 December 2021
Question-Answer session - questioning Time Dilation:
QA Session :
Question (1): I am struggling to understand how time is either speeding up or slowing down.
Responder:
At the outset, let me describe how time is defined through abstraction -
(i) "It is the indefinite continued progress of existence and events in the past, present, and future regarded as a whole, succeeds in irreversible succession."
The above is scientific definition of abstract time. Abstraction is a conceptual process (the quality of dealing with ideas rather than events.)
Abstract time is referred in the fourth dimension, above three spatial dimensions - the dimensions of height, depth, and width within which all things exist and move. Note that dimension is a measurable extent of a particular kind, such as length, breadth, depth, or height.
However, in physical applications, time is operationally defined as -
(ii) 'What a clock reads.' - This is real representation through a near approximation of the abstract time.
(A1) Therefore, since abstract time succeeds in irreversible succession, its progression either be speeding up or slowing down, are INVALID.
Moreover, from the abstract definition of time above, it is obvious that the existential events, within the Universe, are responsible to invoke conceptual time - which is progressing in irreversible succession, in the fourth dimension. In addition to that, though the existential events are real in space, but since the abstract time itself is conceptual, so it does not depend on real events, but those events can only invoke abstract time.
Furthermore, since operational time is real representation of the abstract time but no clock can read time - ideal to the abstract time, as the gravitational influence exerts mechanical stress on the clock oscillator depending upon the gravitational potential where a clock is.
Question (2): In reality it seems that our "devices to measure time" are impacted by different forces;
(A2) Certainly yes, as the clocks are subject to mechanical stress corresponding to the gravitational potential, so the oscillation of such measuring devices are impacted by the mechanical stress due to the gravitational force.
Question (3): These forces may alter our devices for measuring time even though they don't alter time.
(A3) Yes, correctly said. The corresponding gravitational force influence oscillation of the clocks, resulting frequency of the clock oscillator lowered out of a gravitational well, correspondingly its wavelength enlarged resulting a greater reading in time, but such greater reading is not because of time dilated but because of the temporary error for the mechanical stress due to gravitational force on the clock oscillator. This is a phenomenon of Wavelength Dilation and not Time Dilation.
Question (4): I honestly admit I do not understand this but I want to.
(A4) By now, you have probably understood what is happening in the background as described in the (A3) above. You have raised this question in the very right direction.
Question (5): I hear gravity makes time occur at a different speed, but a neighbouring planet may have a different gravity.
(A5) You are intelligent enough, and also in very correct direction in raising this question. It is obvious that the speed results displacement of a body so that the gravitational potential on that speeding body lowers as it speeds out of a gravitational well, correspondingly resulting lower gravitational potential that less-influence that speeding body, correspondingly its frequency lowers and wavelength increases resulting increased oscillation in the clock oscillator, so the clock reads greater time due to such temporary mechanical error. But when that speeding body passes besides a neighbouring planet/body, the above said processes reverses and the clock starts reading lower time than the time it was reading out of its originating source of gravitation well.
Question (6): acknowledge that the change - is the device and not actual passing of time - doesn't this make sense to me:
(A6) by now you know how intelligent you are and also how correct your way of thinking is. Definitely, one day you are going to be a great scientist! I have enough reasons to admit that.