The macroscopic scale is the length scale on which objects or phenomena are large enough to be visible practically with the naked eye, without magnifying devices.
When applied to physical phenomena and bodies, the macroscopic scale describes things as a person can directly perceive them, without the aid of magnifying devices. This is in contrast to observations (microscopy) or theories (microphysics, statistical physics) of objects of geometric lengths smaller than perhaps some hundreds of micrometers.
A macroscopic view of a ball is just that: a ball. A microscopic view could reveal a thick round skin seemingly composed entirely of puckered cracks and fissures (as viewed through a microscope) or, further down in scale, a collection of molecules in a roughly spherical shape.
Classical mechanics may describe the interactions of the above-mentioned ball. It can be considered a mainly macroscopic theory. On the much smaller scale of atoms and molecules, classical mechanics may not apply, and the interactions of particles is then described by quantum mechanics. As another example, near the absolute minimum of temperature, the Bose–Einstein condensate exhibits elementary quantum effects on macroscopic scale.
Macroscopic & Microscopic point of view
Watch more videos at https://www.tutorialspoint.com/videotutorials/index.htm
Lecture By: Er. Himanshu Vasishta, Tutorials Point India Private Limited
published: 31 Jan 2018
Macroscopic scale
If you find our videos helpful you can support us by buying something from amazon.
https://www.amazon.com/?tag=wiki-audio-20
Macroscopic scale
The macroscopic scale is the length scale on which objects or phenomena are large enough to be visible practically with the naked eye, without magnifying devices.When applied to physical phenomena and bodies, the macroscopic scale describes things as a person can directly perceive them, without the aid of magnifying devices.
-Video is targeted to blind users
Attribution:
Article text available under CC-BY-SA
image source in video
https://www.youtube.com/watch?v=rqo7ihCke18
published: 29 Jan 2016
Macroscopic Scale
Provided to YouTube by DANCE ALL DAY Musicvertriebs GmbH
Macroscopic Scale · Lars Leonhard
GRAVITY
℗ 2022 Lars Leonhard
Released on: 2022-03-01
Auto-generated by YouTube.
published: 28 Feb 2022
Mark Kasevich - Quantum Mechanics at Macroscopic Scales
NASA Ames 2016 Summer Series. The underpinning of the universe is quantum mechanics. Atom interferometry uses the wave characteristics of atoms to investigate fundamental physics and advance our understanding of the macroscopic world.
It can be used to explain the observed particle and wave nature of atoms. Dr. Mark Kasevich delves into the world of atom interferometry, gravitational waves and quantum sensors.
For more information about the Office of the Chief Scientist at NASA Ames, please visit http://www.nasa.gov/ames/ocs
published: 31 Jan 2017
Macroscopic Vs Microscopic approach |Quick 1min differences|
You can interact with me in the comments section below!!
I reply to every single comment and love them!!
SAY HI TO ME ON MY NEW INSTAGRAM !
https://www.instagram.com/sayanseal3
Pray to God and Stay happy everyone:
Music Credits: www.bensound.com(check them out)
#Microscopic
#Macroscopic
#Difference_Microscopic_Macroscopic
published: 01 May 2020
Wave Particle Duality in the Macroscopic Scale: Quantum Tunneling-Walker droplets Barrier Crossing
Demonstration of wave-particle duality effects in macroscopic environment. The Walker droplets were generated on Silicone oil bath at 50Hz frequency. Tunneling happens at 00:08.
published: 20 May 2019
Wave Particle Duality in the Macroscopic Scale: Quantum Shells in Macroscopic Environment
Demonstration of quantum shell in macroscopic environment. The Walker droplets were generated on Silicone oil bath at 70Hz frequency.
published: 20 May 2019
From Atomic to Macroscopic Scale in with Hybrid Photon Counting Detectors
DECTRIS HPC detector and X-rays on the hunt for high-quality data! Their search takes them on an exciting and full of mystery journey from atomic to macroscopic scale. A dazzling animation about a true partnership based on real events.
published: 31 Oct 2019
Quantum mechanics at the macroscopic scale - Mark Kasevich (SETI Talks 2016)
Quantum mechanics is a foundation of physics, chemistry and materials science. Still, there is an ongoing debate about the emergence of the classical, macroscopic world from the well-understood microscopic world of quantum mechanics. We contribute to this discourse by demonstrating quantum superposition of massive particles at the distance (0.5 m) and time scales (2 s) of everyday life, thereby advancing the state-of-the-art of atom de Broglie wave interferometry by nearly two orders of magnitude [1]. In addition to testing a central tenet of quantum mechanics, we pave the way for new precision tests of gravity, including the possible observation of gravitational waves and tests of the equivalence principle. In related experimental work, we demonstrate that entangled clusters of appr...
Macroscopic & Microscopic point of view
Watch more videos at https://www.tutorialspoint.com/videotutorials/index.htm
Lecture By: Er. Himanshu Vasishta, Tutorial...
Macroscopic & Microscopic point of view
Watch more videos at https://www.tutorialspoint.com/videotutorials/index.htm
Lecture By: Er. Himanshu Vasishta, Tutorials Point India Private Limited
Macroscopic & Microscopic point of view
Watch more videos at https://www.tutorialspoint.com/videotutorials/index.htm
Lecture By: Er. Himanshu Vasishta, Tutorials Point India Private Limited
If you find our videos helpful you can support us by buying something from amazon.
https://www.amazon.com/?tag=wiki-audio-20
Macroscopic scale
The macroscop...
If you find our videos helpful you can support us by buying something from amazon.
https://www.amazon.com/?tag=wiki-audio-20
Macroscopic scale
The macroscopic scale is the length scale on which objects or phenomena are large enough to be visible practically with the naked eye, without magnifying devices.When applied to physical phenomena and bodies, the macroscopic scale describes things as a person can directly perceive them, without the aid of magnifying devices.
-Video is targeted to blind users
Attribution:
Article text available under CC-BY-SA
image source in video
https://www.youtube.com/watch?v=rqo7ihCke18
If you find our videos helpful you can support us by buying something from amazon.
https://www.amazon.com/?tag=wiki-audio-20
Macroscopic scale
The macroscopic scale is the length scale on which objects or phenomena are large enough to be visible practically with the naked eye, without magnifying devices.When applied to physical phenomena and bodies, the macroscopic scale describes things as a person can directly perceive them, without the aid of magnifying devices.
-Video is targeted to blind users
Attribution:
Article text available under CC-BY-SA
image source in video
https://www.youtube.com/watch?v=rqo7ihCke18
Provided to YouTube by DANCE ALL DAY Musicvertriebs GmbH
Macroscopic Scale · Lars Leonhard
GRAVITY
℗ 2022 Lars Leonhard
Released on: 2022-03-01
Auto-genera...
Provided to YouTube by DANCE ALL DAY Musicvertriebs GmbH
Macroscopic Scale · Lars Leonhard
GRAVITY
℗ 2022 Lars Leonhard
Released on: 2022-03-01
Auto-generated by YouTube.
Provided to YouTube by DANCE ALL DAY Musicvertriebs GmbH
Macroscopic Scale · Lars Leonhard
GRAVITY
℗ 2022 Lars Leonhard
Released on: 2022-03-01
Auto-generated by YouTube.
NASA Ames 2016 Summer Series. The underpinning of the universe is quantum mechanics. Atom interferometry uses the wave characteristics of atoms to investigate...
NASA Ames 2016 Summer Series. The underpinning of the universe is quantum mechanics. Atom interferometry uses the wave characteristics of atoms to investigate fundamental physics and advance our understanding of the macroscopic world.
It can be used to explain the observed particle and wave nature of atoms. Dr. Mark Kasevich delves into the world of atom interferometry, gravitational waves and quantum sensors.
For more information about the Office of the Chief Scientist at NASA Ames, please visit http://www.nasa.gov/ames/ocs
NASA Ames 2016 Summer Series. The underpinning of the universe is quantum mechanics. Atom interferometry uses the wave characteristics of atoms to investigate fundamental physics and advance our understanding of the macroscopic world.
It can be used to explain the observed particle and wave nature of atoms. Dr. Mark Kasevich delves into the world of atom interferometry, gravitational waves and quantum sensors.
For more information about the Office of the Chief Scientist at NASA Ames, please visit http://www.nasa.gov/ames/ocs
You can interact with me in the comments section below!!
I reply to every single comment and love them!!
SAY HI TO ME ON MY NEW INSTAGRAM !
https://www.instagr...
You can interact with me in the comments section below!!
I reply to every single comment and love them!!
SAY HI TO ME ON MY NEW INSTAGRAM !
https://www.instagram.com/sayanseal3
Pray to God and Stay happy everyone:
Music Credits: www.bensound.com(check them out)
#Microscopic
#Macroscopic
#Difference_Microscopic_Macroscopic
You can interact with me in the comments section below!!
I reply to every single comment and love them!!
SAY HI TO ME ON MY NEW INSTAGRAM !
https://www.instagram.com/sayanseal3
Pray to God and Stay happy everyone:
Music Credits: www.bensound.com(check them out)
#Microscopic
#Macroscopic
#Difference_Microscopic_Macroscopic
Demonstration of wave-particle duality effects in macroscopic environment. The Walker droplets were generated on Silicone oil bath at 50Hz frequency. Tunneling ...
Demonstration of wave-particle duality effects in macroscopic environment. The Walker droplets were generated on Silicone oil bath at 50Hz frequency. Tunneling happens at 00:08.
Demonstration of wave-particle duality effects in macroscopic environment. The Walker droplets were generated on Silicone oil bath at 50Hz frequency. Tunneling happens at 00:08.
DECTRIS HPC detector and X-rays on the hunt for high-quality data! Their search takes them on an exciting and full of mystery journey from atomic to macroscopic...
DECTRIS HPC detector and X-rays on the hunt for high-quality data! Their search takes them on an exciting and full of mystery journey from atomic to macroscopic scale. A dazzling animation about a true partnership based on real events.
DECTRIS HPC detector and X-rays on the hunt for high-quality data! Their search takes them on an exciting and full of mystery journey from atomic to macroscopic scale. A dazzling animation about a true partnership based on real events.
Quantum mechanics is a foundation of physics, chemistry and materials science. Still, there is an ongoing debate about the emergence of the classical, macrosco...
Quantum mechanics is a foundation of physics, chemistry and materials science. Still, there is an ongoing debate about the emergence of the classical, macroscopic world from the well-understood microscopic world of quantum mechanics. We contribute to this discourse by demonstrating quantum superposition of massive particles at the distance (0.5 m) and time scales (2 s) of everyday life, thereby advancing the state-of-the-art of atom de Broglie wave interferometry by nearly two orders of magnitude [1]. In addition to testing a central tenet of quantum mechanics, we pave the way for new precision tests of gravity, including the possible observation of gravitational waves and tests of the equivalence principle. In related experimental work, we demonstrate that entangled clusters of approximately 1000 atoms can be used to achieve 10-fold improvement in the sensitivity of quantum sensors based on atomic transitions; the levels of performance achieved could not have been realized with any competing (non-entangled) method [2].
[1] Kovachy, et al., Nature 528, 530 (2015).
[2] Hosten, et al., Nature 529, 505 (2016).
Quantum mechanics is a foundation of physics, chemistry and materials science. Still, there is an ongoing debate about the emergence of the classical, macroscopic world from the well-understood microscopic world of quantum mechanics. We contribute to this discourse by demonstrating quantum superposition of massive particles at the distance (0.5 m) and time scales (2 s) of everyday life, thereby advancing the state-of-the-art of atom de Broglie wave interferometry by nearly two orders of magnitude [1]. In addition to testing a central tenet of quantum mechanics, we pave the way for new precision tests of gravity, including the possible observation of gravitational waves and tests of the equivalence principle. In related experimental work, we demonstrate that entangled clusters of approximately 1000 atoms can be used to achieve 10-fold improvement in the sensitivity of quantum sensors based on atomic transitions; the levels of performance achieved could not have been realized with any competing (non-entangled) method [2].
[1] Kovachy, et al., Nature 528, 530 (2015).
[2] Hosten, et al., Nature 529, 505 (2016).
Macroscopic & Microscopic point of view
Watch more videos at https://www.tutorialspoint.com/videotutorials/index.htm
Lecture By: Er. Himanshu Vasishta, Tutorials Point India Private Limited
If you find our videos helpful you can support us by buying something from amazon.
https://www.amazon.com/?tag=wiki-audio-20
Macroscopic scale
The macroscopic scale is the length scale on which objects or phenomena are large enough to be visible practically with the naked eye, without magnifying devices.When applied to physical phenomena and bodies, the macroscopic scale describes things as a person can directly perceive them, without the aid of magnifying devices.
-Video is targeted to blind users
Attribution:
Article text available under CC-BY-SA
image source in video
https://www.youtube.com/watch?v=rqo7ihCke18
Provided to YouTube by DANCE ALL DAY Musicvertriebs GmbH
Macroscopic Scale · Lars Leonhard
GRAVITY
℗ 2022 Lars Leonhard
Released on: 2022-03-01
Auto-generated by YouTube.
NASA Ames 2016 Summer Series. The underpinning of the universe is quantum mechanics. Atom interferometry uses the wave characteristics of atoms to investigate fundamental physics and advance our understanding of the macroscopic world.
It can be used to explain the observed particle and wave nature of atoms. Dr. Mark Kasevich delves into the world of atom interferometry, gravitational waves and quantum sensors.
For more information about the Office of the Chief Scientist at NASA Ames, please visit http://www.nasa.gov/ames/ocs
You can interact with me in the comments section below!!
I reply to every single comment and love them!!
SAY HI TO ME ON MY NEW INSTAGRAM !
https://www.instagram.com/sayanseal3
Pray to God and Stay happy everyone:
Music Credits: www.bensound.com(check them out)
#Microscopic
#Macroscopic
#Difference_Microscopic_Macroscopic
Demonstration of wave-particle duality effects in macroscopic environment. The Walker droplets were generated on Silicone oil bath at 50Hz frequency. Tunneling happens at 00:08.
DECTRIS HPC detector and X-rays on the hunt for high-quality data! Their search takes them on an exciting and full of mystery journey from atomic to macroscopic scale. A dazzling animation about a true partnership based on real events.
Quantum mechanics is a foundation of physics, chemistry and materials science. Still, there is an ongoing debate about the emergence of the classical, macroscopic world from the well-understood microscopic world of quantum mechanics. We contribute to this discourse by demonstrating quantum superposition of massive particles at the distance (0.5 m) and time scales (2 s) of everyday life, thereby advancing the state-of-the-art of atom de Broglie wave interferometry by nearly two orders of magnitude [1]. In addition to testing a central tenet of quantum mechanics, we pave the way for new precision tests of gravity, including the possible observation of gravitational waves and tests of the equivalence principle. In related experimental work, we demonstrate that entangled clusters of approximately 1000 atoms can be used to achieve 10-fold improvement in the sensitivity of quantum sensors based on atomic transitions; the levels of performance achieved could not have been realized with any competing (non-entangled) method [2].
[1] Kovachy, et al., Nature 528, 530 (2015).
[2] Hosten, et al., Nature 529, 505 (2016).
The macroscopic scale is the length scale on which objects or phenomena are large enough to be visible practically with the naked eye, without magnifying devices.
When applied to physical phenomena and bodies, the macroscopic scale describes things as a person can directly perceive them, without the aid of magnifying devices. This is in contrast to observations (microscopy) or theories (microphysics, statistical physics) of objects of geometric lengths smaller than perhaps some hundreds of micrometers.
A macroscopic view of a ball is just that: a ball. A microscopic view could reveal a thick round skin seemingly composed entirely of puckered cracks and fissures (as viewed through a microscope) or, further down in scale, a collection of molecules in a roughly spherical shape.
Classical mechanics may describe the interactions of the above-mentioned ball. It can be considered a mainly macroscopic theory. On the much smaller scale of atoms and molecules, classical mechanics may not apply, and the interactions of particles is then described by quantum mechanics. As another example, near the absolute minimum of temperature, the Bose–Einstein condensate exhibits elementary quantum effects on macroscopic scale.
“Hence, breakthrough ideas, feasible to be implemented experimentally in the near future, are the need of the hour in order to scale up the tests of macroscopic quantumness to ever more massive objects,” they added.
The phenomenon of static electricity has been observed for thousands of years and is well understood at the macroscopic scale, but it has been a mystery at the nanoscale – until now, according to a press release from RMIT... RECOMMENDED ARTICLES. .
Prof ... While the Mpemba effect is still not wholly understood—its presence is hotly debated at the macroscopic scale—it is much more apparent on the microscopic scale, where physicists use the theory of quantum mechanics to describe nature ... Prof ... Prof.
Researchers used state-of-the-art electron microscopes to capture atomic-scale pictures of the manganese-based material in action ... chemical changes to manganese and oxygen at the macroscopic level.
"This provides us with new tools for studying chaotic quantum systems and making predictions about their seemingly complex behavior, at least on a macroscopic scale.".
"We essentially mix powders of material, expose them to temperatures of a few hundred degrees Celsius in a furnace, and rely on chemical reactions" to naturally form macroscopic crystals with properties dictated by atomic-scale interactions.
This highlights a unique aspect of designing microscopic robots, as the physics of movement at this scale differs significantly from that of larger, macroscopic robots.
Quantum magnets are materials that realize a quantum superposition of magnetic states, bringing quantum phenomena from the microscopic to the macroscopic scale.
Kagome superconductor shakes up science ... While these effects are currently observable only at the atomic level, once Kagome superconductivity is achievable on a macroscopic scale, novel superconducting components will become feasible ... Outlook ... DOI ... DOI.
They can study the \u201cchemical, isotopic, mineralogical, structural, and physical properties of extraterrestrial samples from the macroscopic level down to the atomic scale, frequently all on the ...
The thinnest metallic wire may have just been discovered ... Chiara Cignarella was the lead author of the project ... Credit ... If things work according to plan, Sb2Te2 might even allow quantum phenomena to become visible at macroscopic scales ... Abstract ... .
... for studying an exotic state of matter predicted 50 years ago but never observed, called excitonic insulators, one of those rare cases where quantum phenomena become visible at the macroscopic scale.
"We also show that universes that differ from each other at macroscopic, even cosmic, scales can sometimes be understood as quantum superpositions of other, macroscopically different universes.
At a microscopic level, the atoms in matter rearrange themselves, leading to changes observed on the macroscopic scale ...Conformal symmetry, which concerns scale invariance and angles, is significant in ...
Turbines, from macroscopic to nanoscale, harness kinetic energy and have diverse applications ... These macroscopic devices are important in power generation systems, but their nanoscale counterparts are no less important.
