Wednesday, 23 March 2016

What are The Best Institutions for Higher Education in India?

All Institute of National Importance are Best Place for Higher education in India.

Institute of National Importance (INI) is a status that may be conferred to a public higher education institution in India by an act of parliament, an institution which "serves as a pivotal player in developing highly skilled personnel within the specified region of the country/state". INIs receive special recognition and funding. As of 23 April 2015 the Ministry of Human Resource Development has listed 74 institutions under this category.[1] AllNational Institutes of TechnologyIndian Institutes of TechnologySchool of Planning and ArchitectureIndian Institutes of Science Education and Research and All India Institute of Medical Sciences are considered Institutes of National Importance.

Visit Wikipedia for further detail.

Please note there are also Institute which are not in this list but they also very good e.g.

  • TIFR Mumbai
  • IISC Banglore
  • All the IIMs
For more Information contact us :
Confused Electron Physics Academy, Gurgaon. Mob. no. 7065919019.

1. Who rules the Universe? 2. What is the Ultimate Question? 3. Who is Zaphod Beeblebrox?

Q.1. Who rules the Universe? Q.2. What is the Ultimate Question? Q.3. Who is Zaphod Beeblebrox?

Well I will not answer the Question 1 & 2 right now but maybe later.

Zaphod Beeblebrox was once the President of Our Galaxy, Milkyway.
He delivered his duty as President very diligently otherwise he was very irresponsible.
He also discovered Pan Galactic Gargle Blaster.
Want to know more about him, Then Read "The Hitchhiker's Guide to the Galaxy".

For more Information contact us :

Confused Electron Physics Academy, Gurgaon. Mob. no. 7065919019.

Friday, 18 March 2016

Good Physics Books for IITJEE

Hi Folks!

Let me tell me you about the importance of reading only good books and nothing else.

What is a Good book?
Good books have a theme in them, they are like watching a TV series, each chapter is related to other chapters. They are written by a person of vast knowledge and interest.
Good books give real knowledge, comfort and are interesting.


What is bad book?
Bad books are written by people of shallow knowledge Or by too many uncoordinated people. The are mostly copy of Various good books.
Bad books cause nothing more than confusion and distress and are boring.

What is Average Book?
In between the two.


So read only good books and nothing else.

Let me suggest some of the good books :

Physics :
1.
Fundamentals of Physics , By:  Halliday, Resnick and Walker

My comments on this :
I have read it when I prepared for IITJEE in 2002, I say no other book can replace it.
Very good for theory and concepts.
Fairly good for 50% of IITJEE Questions.
You don't have to do its all the Numerical problems given at the end, you skip 50-70% easily, without any harm.

2.
For difficult numerical try to solve only 50 % of Irodov Problems in Physics, even if you see the solutions and understood, it will help a lot.
The best part of Irodov is that it deals with Characters instead of numerical values, so you are doing lots of theorems.

For more Information contact us :
Confused Electron Physics Academy, Gurgaon. Mob. no. 7065919019.

Newton's Third Law Exceptions? Acceleration without any external force?

There are many exceptions to Newton third Law in classical sense.

The best example is Force due magnetic field of a moving charged particle.


Here net F 1 ≠ F 2.

Also note that The center of mass of the system is also accelerating even net external force is zero.

For more Information contact us :

Confused Electron Physics Academy, Gurgaon. Mob. no. 7065919019.

Wednesday, 16 March 2016

How Gravitational waves are discovered? How does LIGO operate? Simple Answer.

Gravitational waves are discovered using very very sensitive interferometer called LIGO.
LIGO meansLaser Interferometer Gravitational-Wave Observatory.
Its operation is similar to Famous Michealson-Morley experiment.

First, an interference pattern is observed without Gravitational wave, then if there is any change in the interference pattern a gravitational wave is suspected to pass through.

It can be easily understood by these two diagrams:


For more Information contact us :
Confused Electron Physics Academy, Sec- 56, Gurgaon. Mob. no. 7065919019.

Tuesday, 15 March 2016

Can / Should I become a Scientist?

First of all, let's define A Scientist.

As per Wikipedia : "scientist is a person engaging in a systematic activity to acquire knowledge. In a more restricted sense, a scientist may refer to an individual who uses the scientific method.[1] The person may be an expert in one or more areas of science."

As per me " A Scientist is a person who sees Science everywhere, who finds logical 

reasoning behind all phenomenon. A scientist just enjoy  science. He has a compelling habit 

of finding the most satisfactory answer to all the phenomenon. He will discover or re-

discover many important things on his own."


Now the question : Can / Should I become a Scientist?

If you have the above quality I think you must and you will become a scientist, even you 

may choose different career initially but science will be your final job. So have your option 

open to study Science up-to highest level in future.


For more Information contact us :

Confused Electron Physics Academy, Sec- 56, Gurgaon. Mob. no. 7065919019.

Sunday, 13 March 2016

Do Electrons Really Spin?

Morton Tavel, a professor of physics at Vassar College, responds:
"When certain elementary particles move through a magnetic field, they are deflected in a manner that suggests they have the properties of little magnets. In the classical world, a charged, spinning object has magnetic properties that are very much like those exhibited by these elementary particles. Physicists love analogies, so they described the elementary particles too in terms of their 'spin.'
"Unfortunately, the analogy breaks down, and we have come to realize that it is misleading to conjure up an image of the electron as a small spinning object. Instead we have learned simply to accept the observed fact that the electron is deflected by magnetic fields. If one insists on the image of a spinning object, then real paradoxes arise; unlike a tossed softball, for instance, the spin of an electron never changes, and it has only two possible orientations. In addition, the very notion that electrons and protons are solid 'objects' that can 'rotate' in space is itself difficult to sustain, given what we know about the rules of quantum mechanics. The term 'spin,' however, still remains."
Kurt T. Bachmann of Birmingham-Southern College adds some historical background and other details:
"Starting in the 1920s, Otto Stern and Walther Gerlach of the University of Hamburg in Germany conducted a series of important atomic beam experiments. Knowing that all moving charges produce magnetic fields, they proposed to measure the magnetic fields produced by the electrons orbiting nuclei in atoms. Much to their surprise, however, the two physicists found that electrons themselves act as if they are spinning very rapidly, producing tiny magnetic fields independent of those from their orbital motions. Soon the terminology 'spin' was used to describe this apparent rotation of subatomic particles.
"Spin is a bizarre physical quantity. It is analogous to the spin of a planet in that it gives a particle angular momentum and a tiny magnetic field called a magnetic moment. Based on the known sizes of subatomic particles, however, the surfaces of charged particles would have to be moving faster than the speed of light in order to produce the measured magnetic moments. Furthermore, spin is quantized, meaning that only certain discrete spins are allowed. This situation creates all sorts of complications that make spin one of the more challenging aspects of quantum mechanics.
"In a broader sense, spin is an essential property influencing the ordering of electrons and nuclei in atoms and molecules, giving it great physical significance in chemistry and solid-state physics. Spin is likewise an essential consideration in all interactions among subatomic particles, whether in high-energy particle beams, low-temperature fluids or the tenuous flow of particles from the sun known as the solar wind. Indeed, many if not most physical processes, ranging from the smallest nuclear scales to the largest astrophysical distances, depend greatly on interactions of subatomic particles and the spins of those particles."
Victor J. Stenger, professor of physics at the University of Hawaii at Manoa, offers another, more technical perspective:
"Spin is the total angular momentum, or intrinsic angular momentum, of a body. The spins of elementary particles are analogous to the spins of macroscopic bodies. In fact, the spin of a planet is the sum of the spins and the orbital angular momenta of all its elementary particles. So are the spins of other composite objects such as atoms, atomic nuclei and protons (which are made of quarks).
"In classical physics, angular momentum is a continuous variable. In quantum mechanics, angular momenta are discrete, quantized in units of Planck's constant divided by 4 pi. Niels Bohr proposed that angular momentum is quantized in 1913 and used this to explain the line spectrum of hydrogen.
"At our current level of understanding, the elementary particles are quarks, leptons (such as the electron) and bosons (such as the photon). These particles are all imagined as pointlike, so you might wonder how they can have spins. A simple answer might be, perhaps they are composite, too. But deep theoretical reasons having to do with the rotational symmetry of nature lead to the existence of spins for elementary objects and to their quantization. Of particular significance is the difference between fermions, particles that, like the electron, have half-integer spins (half-integer multiples of Planck's constant divided by 2 pi), and bosons, particles that have integer spins. Fermions obey the Pauli exclusion principle, which states that two identical fermions cannot exist in the same state; without the Pauli exclusion principle, chemistry would have no Periodic Table. Bosons, on the other hand, tend to congregate in the same state, leading to phenomena such as superconductivity and Bose-Einstein condensation.
"Spin has served as the prototype for other, even more abstract notions that seem to have the mathematical properties of angular momentum but do not have a simple classical analogue. For example, isotopic spin is used in nuclear physics to represent the two states of a 'nucleon,' the proton and neutron. Similarly, quarks are paired as isospin 'up' and 'down,' which are the names given to the two quarks that make up ordinary matter. The rotational symmetry of space and time is generalized to include symmetries in more abstract 'inner' dimensions, with the result that much of the complex structure of the microworld can be seen as resulting from symmetry breaking, connecting profoundly to ideas describing the spontaneous formation of structure in the macroworld.

WHAT ARE FUNDAMENTAL PROPERTIES OF MATTER ?

FUNDAMENTAL PROPERTIES OF MATTER ????????????????

Ans.

First of all what is matter?

Something that have Mass & Occupy space. A Shadow is not matter even we can see shadow.
Light is not matter.
Matter itself is made of very very small particles we call the atoms.
And even atoms are made of more smaller particles called: ELECTRONS, PROTONS, NEUTRONS.
And even PROTONS & NEUTRONS are made of QUARKS.
So the smallest particles the matter is made of are : ELECTRONS & QUARKS.
But for our present question we can take ELECTRON, PROTONS & NEUTRONS.

These smallest particles have some intrinsic properties which are the specific characteristics of the particular particle. e.g. MASS, SIZE, SHAPE, CHARGE....
There are few more.

These intrinsic properties are called the fundamental properties of matter or FUNDAMENTAL PROPERTIES OF FUNDAMENTAL PARTICLE.

For more Information contact us :
Confused Electron Physics Academy, Sec- 56, Gurgaon. Mob. no. 7065919019.


Tuesday, 8 March 2016

Top Physics Questions.

Top Physics Questions.
These are the questions I found most interesting in Physics:
  1. What was there before Big-Bang?
  2. What caused Big-Bang?
  3. Is The Universe Infinite?
  4. What is the Phenomena behind Quantum Entanglement?
  5. What is Time?
  6. Can we understand the Reason behind the Uncertainty Principle?
  7. Can we modify Physics Laws?
  8. What is Life?
For more Information contact us :
Confused Electron Physics Academy, Sec- 56, Gurgaon. Mob. no. 7065919019.

Tuesday, 1 March 2016

WHAT IS WHAT IN PHYSICS BLOG.

This is my another blog purely dedicated to Physics.

 CLICK HERE to visit this blog.
It's funny and it start from the very basics of Physics.