6. Which of the following sets of concepts completely corresponds to the recognized states of matter? a. gas, solid, liquid, Bose-Einstein condensate b. liquid, plasma, Bose-Einstein condensate, solidc. solid, liquid, gas, plasma, Bose-Einstein condensated. gas, plasma, solid, Bose-Einstein condensate
1. 6. Which of the following sets of concepts completely corresponds to the recognized states of matter? a. gas, solid, liquid, Bose-Einstein condensate b. liquid, plasma, Bose-Einstein condensate, solidc. solid, liquid, gas, plasma, Bose-Einstein condensated. gas, plasma, solid, Bose-Einstein condensate
Answer:
A. Gas, solid, luqid, bose- einstein condensate
Explanation:
2. comprehensibility of plasma and bose einstein condensate
Answer:
A Bose-Einstein condensate is a group of atoms cooled to within a hair of absolute zero. When they reach that temperature the atoms are hardly moving relative to each other; they have almost no free energy to do so. At that point, the atoms begin to clump together, and enter the same energy states. They become identical, from a physical point of view, and the whole group starts behaving as though it were a single atom
3. diffusion of plasma and bose einstein condensate
Answer:
A Bose-Einstein condensate is a group of atoms cooled to within a hair of absolute zero. When they reach that temperature the atoms are hardly moving relative to each other; they have almost no free energy to do so. At that point, the atoms begin to clump together, and enter the same energy states. They become identical, from a physical point of view, and the whole group starts behaving as though it were a single atom.
4. What makes a Plasma and Bose-Einstein Condensation different to solid, liquid, and gas
These are really different forms of matter. Plasmas are gases of electrically charged particles, with equal amounts of both positive and negative charge. They behave a lot differently from ordinary gases because the electrical forces between the particles are strong, all the time. In a normal gas, the forces between the atoms or molecules are usually very weak, except when they occasionally collide.
These are really different forms of matter. Plasmas are gases of electrically charged particles, with equal amounts of both positive and negative charge. They behave a lot differently from ordinary gases because the electrical forces between the particles are strong, all the time. In a normal gas, the forces between the atoms or molecules are usually very weak, except when they occasionally collide.A Bose-Einstein condensate (such as superfluid liquid helium) forms for reasons that only can be explained by quantum mechanics. There's a specific lowest energy state for the particles- say helium atoms. When the atoms become very cold, many of them go into that specific state. The behavior is a lot different from that of an ordinary fluid, in which there are plenty of different states for different particles.
These are really different forms of matter. Plasmas are gases of electrically charged particles, with equal amounts of both positive and negative charge. They behave a lot differently from ordinary gases because the electrical forces between the particles are strong, all the time. In a normal gas, the forces between the atoms or molecules are usually very weak, except when they occasionally collide.A Bose-Einstein condensate (such as superfluid liquid helium) forms for reasons that only can be explained by quantum mechanics. There's a specific lowest energy state for the particles- say helium atoms. When the atoms become very cold, many of them go into that specific state. The behavior is a lot different from that of an ordinary fluid, in which there are plenty of different states for different particles.Only certain types of particles, called bosons, can form Bose-Einstein condensates. The other type of particle- Fermions- can only have at most one particle in each state.
These are really different forms of matter. Plasmas are gases of electrically charged particles, with equal amounts of both positive and negative charge. They behave a lot differently from ordinary gases because the electrical forces between the particles are strong, all the time. In a normal gas, the forces between the atoms or molecules are usually very weak, except when they occasionally collide.A Bose-Einstein condensate (such as superfluid liquid helium) forms for reasons that only can be explained by quantum mechanics. There's a specific lowest energy state for the particles- say helium atoms. When the atoms become very cold, many of them go into that specific state. The behavior is a lot different from that of an ordinary fluid, in which there are plenty of different states for different particles.Only certain types of particles, called bosons, can form Bose-Einstein condensates. The other type of particle- Fermions- can only have at most one particle in each state.Plasmas tend to form at high temperature, since electrons then come off atoms leaving charged ions. Bose condensates form at low temperature, since at high temperatures more states are available to the atoms.
5. what is Bose- Einstein Condensate
Answer:
What is Bose Einstein condensation explain? Bose-Einstein condensate (BEC), a state of matter in which separate atoms or subatomic particles, cooled to near absolute zero (0 K, - 273.15 °C, or - 459.67 °F; K = kelvin), coalesce into a single quantum mechanical entity-that is, one that can be described by a wave function-on a near-macroscopic scale.
Explanation:
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6. This state of matter consists of ionized gas making it electrically conductive and responsive to strongelectromagnetic fields.A. Bose-Einstein condensateC. PlasmaB. SolidD. Liquid
Answer:
C.
Explanation:
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7. which of the following is the most abundant state of matter in the universe?A. Bose-Einstein CondensateB. liquidC. plasmaD. solid
Answer:
C. Plasma
It's the most abundant state of matter in the universe.
Explanation:
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8. identy wether it is solid, liquid, gas, plasma or bose-eintein condensate of rocks
Answer:
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9. shape and volume of Bose Einstein condensate?
Answer:
They atoms in a liquid slide past each other. They have no definite shape but they have a definite volume. They are, BEC(Bose-Einstein Condensate), Solid, Liquid, Gas, and Plasma.
10. cooled particles that make up Bose-Einstein Condensate
Answer:
Bose-Einstein condensate (BEC), a state of matter in which separate atoms or subatomic particles, cooled to near absolute zero (0 K, − 273.15 °C, or − 459.67 °F; K = kelvin), coalesce into a single quantum mechanical entity—that is, one that can be described by a wave function—on a near-macroscopic scale
11. 2. Which of the following sets of concepts completely corresponds to the recognized states of matter? A solid, liquid, gas C. solid, liquid, gas, plasma, fermionic - condensate B. solid, liquid, gas, plasma D. solid, liquid, gas, plasma, Bose-Einstein condensate
Answer:
D
Explanation:
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Answer:
A
Explanation:
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12. Research and describe each of the three more special state of matter.1. plasma2.bose Einstein condensate3.Fermionic condensate
1. Plasma is an ionized state of matter. It is characterized when electrons break apart from their respective atomic nuclei, thereby having a charge. Plasma can be seen in electrical discharges in static electricity and lightning, as well as processes that release high amounts of energy like combustion and nuclear fusion.
2. Bose-Einstein condensates are gases of bosons (with quantum spins 0, 1, 2) are supercooled to a fraction above absolute zero. Bosons include the mediator of the four fundamental forces (gluons, photons, W and Z bosons, and the Higgs) and th meson (particles with one quark and antiquark) They occupy the lowest energy state and behave as a single particle when cooled under very low densities.
3. Fermionic condensates are the same as the Bose-Einstein condensates in behavior, except the particles are fermions, not bosons. Fermions have quantum integer spins (1/2, 3/2, etc.) These include electrons, quarks, neutrinos, as well as protons and neutrons.
13. What are examples of Bose- Einstein condensate?
Bose–Einstein Condensates (BEC) sometimes referred to as the fifth state of matter - are related to two remarkable low-temperature phenomena: superfluidity, in which each of the helium isotopes 3He and 4He forms a liquid that flows with zero friction; and superconductivity, in which electrons move through a material with zero electrical resistance. 4He atoms are bosons, and although 3He atoms and electrons are fermions, they can also undergo Bose condensation if they pair up with opposite spins to form bosonlike states with zero net spin. (In 2003 Deborah Jin and her colleagues at JILA used paired fermions to create the first atomic fermionic condensate.)
14. 9. Which of these is NOT a state of matter? b. Plasma b. light c. Bose - Einstein d. gas Condensate
Answer:
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15. a bose einstein condensate exist at very ____ temperature
High
Explanation:
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16. 4. Which of the following states of matter exists only at a temperature of near absolute zero? A. Bose - Einstein condensate B. gas C. plasma D. liquid
Answer:
A. Bose-Einstein condensate. This state of matter was first predicted by Albert Einstein and Indian physicist Satyendra Nath Bose, and it was experimentally observed in 1995. At extremely low temperatures, atoms start to behave like waves and begin to overlap, creating a single entity known as a Bose-Einstein condensate.
Explanation:
17. bEC BOSE EINSTEIN CONDENSATE
A Bose–Einstein condensate (BEC) is a state of matter of a dilute gas of bosons cooled to temperatures very close to absolute zero (-273.15°C). ... This state was first predicted, generally, in 1924–1925 by Satyendra NathBose and Albert Einstein.
18. Where are Bose-Einstein Condensates used?
Answer:
quantum simulators
Explanation:
Condensates are very helpful quantum simulators: we use them to recreate more complex situations that we yet fail to fully understand in quantum mechanics, such as superconductors or other properties of a solid.
Answer:
quantum simulators
Explanation:
we use them to recreate more complex situations that we yet fail to fully understand in quantum mechanics, such as superconductors or other properties of a solid
19. what is Bose Einstein condensate?
Question :
What is Bose Einstein condensate?
Answer :
Bose-Einstein is the collapse of the atoms into a single or first quantum state.
20. How did scientist discover the Bose-Einstein condensate?
Answer:
An experiment aboard the International Space Station in July 2018 cooled a cloud of rubidium atoms to tenth-millionth of a degree above absolute 0 produced bose-einstein condensate in space
Explanation:
21. 1. This state of matter consists of ionized gas making it electrically conductive and responsive to strong electromagnetic fields.A. Bose–Einstein condensateB. SolidC. PlasmaD. Liquid
Answer:
A
Explanation:
because of strong gas electronic
C. PlasmaPlasma consists of ionized gas that making electrically conductive and responsive to strong electric and magnetic fields.
Hope it helps po
22. the fifth state of matter is bose einstein condensate true or false
Answer:
true
Explanation:
23. what is bose einstein condensates full meaning
a state of matter that occurs when a set of atoms is cooled almost to absolute zero in which a statistical description of the positions of the atoms implies that they physically overlap each other and in effect form a single atom
24. Bose einstein gas liquid plasma solid
1•SOLID
2•PLASMA
3•LIQUID
4•BOSE EINSTEIN
IN MU OPINION
25. relative intermolecular interaction strength of solid, liquid, gas, plasma, and bose-einstein condensate
Answer:
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Answer:
In condensed matter physics, a Bose–Einstein condensate (BEC) is a state of matter that is typically formed when a gas of bosons at low densities is cooled to temperatures very close to absolute zero (−273.15 °C or −459.67 °F). Under such conditions, a large fraction of bosons occupy the lowest quantum state, at which point microscopic quantum mechanical phenomena, particularly wavefunction interference, become apparent macroscopically. A BEC is formed by cooling a gas of extremely low density (about 100,000 times less dense than normal air) to ultra-low temperatures.
26. What are the similarities and differences between the properties of Plasma and Bose Einstein Condensate?
Answer:
plasma state contains a gas of ions and free electrons, whereas Bose-Einstein condensate contains a gas of bosons at low densities
27. Explaine how plasma and bose einstein condensate are formed, Give observable example of this.
Hello! Plasma and Bose-Einstein condensate are states of matter at extreme temperatures.
Plasma is created by heating gas particles until they ionize. This is usually observed in stars like our sun.
Bose-Einstein condensate on the other hand is created by cooling matter up to absolute zero kelvin. This is usually only achievable in laboratory conditions or in high-pressure neutron stars.
Let me know if you need further clarifications!
28. 1. Matter is made up of particles calledA. AtomB. GasC. PlasmaD. Solid2. It is considered as the fourth state of matter which allows both negative and positive ions to co-exist.A. Bose-Einstein CondensateC. MatterB. Fermionic CondensateD. Plasma3. It is a state of matter which has no definite shape and volume.A Bose-Einstein CondensateC. LiquidB. GasD. Solid4. It is a state of matter that has definite shape and volume.A. Fermionic CondensateC. LiquidB. GasD. Solid5. It is a state of matter that has constant volume, but no indefinite shape.A. Fermionic CondensateC. LiquidB. GasD. Plasma
Answer:
1.A
2.D
3.B
4.D
5.C
Explanation:
I HOPE IT HELPS
29. ano ang plasma at Bose-Einstein Condensate
Answer:
They can be considered as other states of matter
Explanation:
Generally, plasma is a state of matter at which gases have charges. Bose-Einstein condensate has one such example like sublimating solids.
Answer:
Explanation:
It is a gaseous state but the particles carry electrical charges at very high temperatures. This maybe found in stars and sun
30. Why is Bose-Einstein condensate considered a phase of matter?
Answer:
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Explanation:
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