Friday, 29 March 2013

310. Q. & A.s SCI. & TECH. – 17


Q. &  A.s  ‑‑‑  SCI.  &  TECH. – 17

451Q.  Why there is numbness in the limbs?
1.      Poor blood supply
2.      Cholesterol
3.      Abnormal Ca, K, Na
4.      Deficiency of Vit. B 12
5.      Diabetes
6.      Hypothyroidism

452Q. why do we get sleep after lunch?
When we eat food, the stomach is filled with food which is to be  churned so that it can be digested after wards. There are three types of muscle movements in the stomach walls. For the movement of these muscles blood is needed. So blood  comes to stomach. There is a less amount of blood in the brain. So we get sleep.

453Q. How do municipalities in cold countries supply water in pipes to houses?
In cold countries supplying water to houses is very difficult.
Water freezes at 0o C. The water present in the pipe becomes ice. To avoid this  alcohol is added to water before supplying. Due to added impurity the freezing point of water goes to “---” value. So water cannot be frozen.

454Q. why there is ice on the Himalayas?
As we go up in troposphere, for every 1 km ascent 6.4o C temperature is reduced. After 6 kms it will below zero. That is why ice is formed on the Himalayas.

455Q. What is electronic warfare?
If enemy’s communication is disturbed by jamming on the enemy’s communicating frequency, the enemy can not send his message to his friend. Because of communication failure we can win the war. It is called electronic warfare.

456Q. How many types of water are there?
H     hydrogen has 1, 2, 3, 4, 5, isotopes
O     oxygen has 14 to 20 isotopes.
H2O,  D2O,  T2O,  HDO,  DTO,  etc. there are nearly 100 types of water are there.

457Q. Why doesn’t the shadow of a plane fall on the ground?
It is due interference of light. One ray falling on the plane and  forming a shadow is cancelled by another ray. Thus the shadows cancel each other because of interference.

458Q. why can’t we make hot pakodies in boiling oil not in boiling water?
Pakodi cannot be made in boiling water because both contain water and their boiling point is same. So the content of water of pakodi cannot be displaced by boiling water. The temperature of edible oil has nearly 250 degrees or more. So water from pakodi can be removed immediately.


459Q. Is it necessary to get a Trademark?
Today’s world has cut throat competition in business. Companies are constantly competing  with one another to gain market share at the expense of the other.   Differentiation from other players is only possible by getting exclusive rights over your name and logo.

460Q. What is SEZ?
SEZ stands for Special Economic Zone. It is similar to that of China. It was introduced in India in 2000 AD.
This is created as per the regulations of SEZ Act 2005.
If a firm joins this group
1.      Exemption from custo0ms/excise duties
2.       Income tax exemption
3.      Exemption from  MAT
4.      Exemption  from DDT [Dividend Distribution Tax]
5.      Exemption from Service  Tax.

461Q. What are the uses of Super conductor?
1.      Magnetic-levitation is an application where superconductors perform extremely well. Transport vehicles such as trains can be made to "float" on strong superconducting magnets, virtually eliminating friction between the train and its tracks.
2.      An area where superconductors can perform a life-saving function is in the field of biomagnetism.
3.      High-energy particle research hinges on being able to accelerate sub-atomic particles to nearly the speed of light.
4.      Other related web sites worth visiting include the proton-antiproton collider page at Fermilab.
5.      Electric generators made with superconducting wire are far more efficient than conventional generators wound with copper wire.
6.      Other commercial power projects in the works that employ superconductor technology include energy storage to enhance power stability.
7.      Recently, power utilities have also begun to use superconductor-based transformers and "fault limiters".
8.      An idealized application for superconductors is to employ them in the transmission of commercial power to cities.
9.      A petaflop is a thousand-trillion floating point operations per second. Today's fastest computers have reached "petaflop" speeds - quadrillions of operations per second.
10. In the electronics industry, ultra-high-performance filters are now being built. Since superconducting wire has near zero resistance, even at high frequencies, many more filter stages can be employed to achieve a desired frequency response.
11. Superconductors have also found widespread applications in the military.
12. American Superconductor has announced the development of a superconducting degaussing cable.
13. The military is also looking at using superconductive tape as a means of reducing the length of very low frequency antennas employed on submarines.
14. Applications engineers suggest that superconducting carbon nanotubes might be an ideal nano-antenna for high-gigahertz and terahertz frequencies, once a method of achieving zero "on tube" contact resistance is perfected.
15. Among emerging technologies are a stabilizing momentum wheel (gyroscope) for earth-orbiting satellites that employs the "flux-pinning" properties of imperfect superconductors to reduce friction to near zero.
16. Superconducting x-ray detectors and ultra-fast, superconducting light detectors are being developed due to their inherent ability to detect extremely weak amounts of energy.
17.  superconducting digital router for high-speed data communications up to 160 Ghz.
18. Low-temperature superconductors are expected to continue to play a dominant role in well-established fields such as MRI and scientific research, with high-temperature superconductors enabling the newer industries.
19. All of this is, of course, contingent upon a linear growth rate. Should new superconductors with higher transition temperatures be discovered, growth and development in this exciting field could explode virtually overnight.
20. High-temperature superconductors were used in power plants.
21. The future melding of superconductors into our daily lives will also depend to a great degree on advancements in the field of cryogenic cooling.
22. Type 1 superconductors - characterized as the "soft" superconductors - were discovered first and require the coldest temperatures to become superconductive.
23. Surprisingly, copper, silver and gold, three of the best metallic conductors, do not rank among the superconductive elements. Why is this ?
24. The periodic table below for all known elemental superconductors (including Niobium, Technetium and Vanadium which are technically Type 2).
25. Superconductors, materials that have no resistance to the flow of electricity, are one of the last great frontiers of scientific discovery.
26. The most ignominious military use of superconductors may come with the deployment of "E-bombs".

462Q. What are the elementary properties of Super conductor?
Most of the physical properties of superconductors vary from material to material, such as
1.      the heat capacity and
2.      the critical temperature,
3.      critical field, and
4.      critical current density at which superconductivity is destroyed.
On the other hand, there is a class of properties that are independent of the underlying material. For instance,
all superconductors have exactly zero resistivity to low applied currents when there is no magnetic field present or
if the applied field does not exceed a critical value.
The existence of these "universal" properties implies that superconductivity is a thermodynamic phase, and thus possesses certain distinguishing properties which are largely independent of microscopic details.

462Q. What are the unsolved problems of magnetism?
1.      Earth’s North changes to South!
2.      Ferromagnetic iron is sometimes found to be unmagnetised!

463Q. What  are Type I  Super Conductors?
1.      These are soft super conductors.
2.      These are perfect diamagnetisms.
3.      Eg., Al, Zn, Hg, Sn, Pb
4.      10-6 metre range is called coherence range.
5.      Super conductor cannot be penetrated by magnetic flux.
6.      The origin of their super conductivity is explained by BCS theory.
7.      These have regularly structured lattice.
8.      The electrons are coupled over larger distances.
9.      Bond energy is very low.
10. Little force is enough to breaking the bond.
11. The ripples through lattice are called phonons.
12. Phonon is a weak link.

464Q. What are Type II super conductors?
1.      These are p-ure super conducting state.
2.      The magnetic flux lines are rejected.
3.      These are hard super conductors.
4.      They carry high current densities.
5.      They transit from super conducting to the normal state within an increasing  magnetic field.
6.      They super conduct at higher temp.s

465Q. Why while erecting electrical wires, the wires are left loosely connected?
If they are tightly connected due to winter cooling, the wires contract and pull the poles towards the centre of the poles.

466Q. What is the difference between “NET”  and “WEB”?
Net
Web
Internet is a network of networks.

On the Net you find computers.


On the net the connections are cables between computers.

---



--

---
-----

The Web is an abstract [imaginary] space of information.

On the Web connections are hyper text links.

The Web exists because of programs which communicate between computers on the Net.

The Web could not be without the Net.

The Web made the Net useful because people are really interested in information.



467Q. When a satellite is launched into geostationary orbit, won’t there be collision with other satellites?
The satellite launched into geostationary orbit is placed at 36,000 kms height. In that orbit it remains where ever it is placed moving at a speed as assigned as per that height so that the satellite can remain at that place only. That is why there is no collision.

468Q.  What are the types of orbits for satellites?
1.      Galactocentric orbit              
2.      Helio centric orbit                 
3.      Geo centric orbit
4.      Areo centric orbit                  
5.      Geo synchronous orbit                     

469Q. What are the different types of Geo synchronous orbit?
1.      Circular orbit
2.      Elliptical orbit
3.      Hyperbolic orbit
4.      Parabolic orbit
5.      Escape orbit
6.      Capture orbit
7.      Graveyard orbit
8.      Areo synchronous orbit
9.      Areo stationary orbit
10. Helio synchronic orbit

470Q. what are the uses of satellites?
1.      Remote sensing
2.      Weather forecasting
3.      Pollution
4.      Internet
5.      DTH
6.      Tele-medicine
7.      Tele-education
8.      Multimedia
9.      Interactive video

471Q. What are the different regions of satellites?
Region I          Europe, Africa, USSR, Mangolia
Region II         NA, SA, Greenland
Region III        Asia, Australia, SW pacific

472Q. What is Josephson Effect?
It is the phenomenon of current flow across two weakly coupled superconductors separated by a very thin insulation barrier.  It is called Josephson Effect.
It is called Josephson’s Junction.
The current is called Josephson current.

473Q. What is called Green Computing?
1.      Product longevity
2.      Algorithmic efficiency
3.      Resource allocation
4.      Virtualization
5.      Terminal servers
6.      Power management
7.      Materials recycling
8.      Telecommuting
9.      Newer hardware

474Q.  What is Energy Efficient Computing?
It is the practice of using computing devices.
1.      Turn off your computer when not in  use.
2.      If you don’t for a while, keep in standby mode
3.      Don’t run computers continuously unless they are in use continuously.
4.      For small works don’t switch on and off.
5.      Don’t switch off a computer directly from main switch board.
6.       If it is a laser printer, don’t turn it on until you are ready to print.

475Q. What does a Software Engineer have?
1.      Technical
2.      Program Management
3.      Domain Consulting
4.      Problem solving
5.      Product development
6.      Testing
7.      Project Management
8.      Customer interface

309. Q U I Z NO. 11 Magnets


Q U I Z   NO.  11
Magnets

1.      Highest magnetic  power … black whole
2.      The test for magnetic property is repulsion.
3.      Tesla – CGS system
4.      Gauss – FPS system
5.      Weber – SI system
6.      The value of g = …m/sec2.
7.      10000 gauss = 1 Tesla
8.      Poles at the ends of a bar magnet.
9.      Poles lie outside of a spherical manget.
10.  Poles are at faces.
11.  If a magnet is spherical, the other end lies at imaginary point.
12.  Magnet cannot be magnetised beyond saturation point.
13.  Aristotle was the first to discuss on magnets. [625 to 545 BC]
14.  Sushruta was the first Indian to discuss about magnets.
15.  In China 4th C BC – loadstone had magnetic properties. Shen Kuo [1031 – 954]
16.  Ferromagnetism was said Weiss.
17.  Ferro magnets are microscopic magnets.
18.  Ferro magnets are permanent magnets.
19.  Ferro magnets follow Curie Temperature.
20.  Ferro magnetic substances form alloys but are non-magnetic. Eg. Stainless steel
21.  Lanthanide elements exhibit strong Ferro magnets properties.
22.  Actinides exhibit Ferro magnetism at room temperature.
23.  Li gas exhibits Ferro magnetic property at below 1 K
24.  Ferro magnetism is due to 1] electron spin  2] Pauli’s exclusion principle
25.  Orbitals with partially filled shells/ unpaired spins can have magnetic moment.
26.  Ferro magnets spontaneously divide into magnetic domains due to lower energy configuration.
27.  In Ferro magnetic substances domains of different directions cancel out.
28.  Ferro magnetism is distinguished from para magnetism by permeability, remnance and coercivity.
29.  Curie Temp is only for Ferro magnetism.
30.  Curie temp. for Co is 1388o K
31.  Curie temp. for F is 1043o K.
32.  Curie temp. for Ni is 627o K
33.  Above Curie temp. Ferro magnetic substances exhibit paramagnetic properties.
34.  Above Neel Temp. antiferromagnetic material becomes paramagnetic.
35.  Each ferrmagnet has a characteristic temp.
36.  Molecular field theory = ferromagnetism.
37.  Ferromagnetic material used for permanent magnet is above 1 weber/m2.
38.  They present spontaneous magnetization.
39.  Ferromagnetism’s domain range is in the order of 10-6 to 10-2 cm3.
40.  In a domain of ferromagnetism the molecules range from 1017 to 1021.
41.  Fe, Co, Ni, Gd [gadolinium], magnetite [Fe3O4]
42.  If T < Of ferromagnetic behaviour.
43.  Below Curie Temp. ferromagnetic properties are exhibited by crystalline substances.
44.  Above Curie Temp. ferromagnetic substances lose their property.


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