Hard Drive Data Recovery -> The Start
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NOTE : All the processes explained in this blog are only to help you & any damage occuring from
following any part or the full article isn't the responsibilty of the writer, you are solely responsible for your actions...
Computer Hard Drives like many other electronic devices can sometimes
create huge problems if they are not handled properly, you are here because probably you have
lost your data by an accident, and i can guarantee u that it might have been more of a human fault than the device's fault. But Anyway about 90% of the data lost can be recovered if you try to recover it at the right time. Mark my words 'AT THE RIGHT TIME'; By which i mean that you can recover
your data if you have not used the hard disk too much after deleting the data.Let me explain you
the process :
The Windows (R) Operating System(OS) & many others follow certain rules when deleting a file or folder, which
means when u delete a file/folder , it is deleted for the user & is not shown to him; but actually the file/folder isn't deleted right at that instant , only the file's listing that is it's location, size & many other attributes are hidden from the user & when u perform some tasks
that requires space the OS has no other option other than deleting the file. so, it means that we
can easily recover our data if it is not deleted from the hard disk using lots of freeware & commercial data recovery softwares in the market.
STEPS FOR A SUCCESSFUL HARD DRIVE DATA RECOVERY
1. Try to avoid writing anything to the hard disk you have lost the data from,infact it will be
better if you just take the hard disk and recover the data on it using a different computer since
that computer will be using its own hard disk for booting & other purposes, so your data can have greater probability of being recovered.
2. If u have deleted a partition don't create a new one now.
3. If u don't have another computer, try some softwares I am going to list later which will try to
recover your data without booting with your OS & hence preventing overwriting of further data on your important data.
FILE RECOVERY SOFTWARES
1. Now the first thing to do is to use a bootable device like bootable floppy,CD,USB drive or any other to boot your computer to the DOS mode.
2. Now Download Testdisk using below given link :
http://www.cgsecurity.org/wiki/TestDisk_Download
TestDisk is a powerful free data recovery software! It was primarily designed to help recover lost partitions and/or make non-booting disks bootable again when these symptoms are caused by faulty software, certain types of viruses or human error (such as accidentally deleting a Partition Table). Partition table recovery using TestDisk is really easy.
3. Now if your hard disk has a single partition it is difficult for the program to recover your data
& in that case I suggest you to use your Hard disk drive on another computer as the file recovery program will write the recovered data on a part of the hard disk so our remaining data to be recovered will be under risk of being Overwrited, wiped out or deleted.
4. Commercial Softwares like 'Winternals Disk Commander' and 'ERD Commander' can also be useful softwares for a successful recovery.
A BAD SECTOR PROBLEM
Try HDD Regenerator its really the best , use this link : http://www.softpedia.com/get/System/Hard-Disk-Utils/HDD-Regenerator.shtml
AN NTFS DRIVE
1. if u have an NTFS drive it cannot be directly read from DOS, so u will need tools like FINDNTFS to recover your files, Download It using the link below :
FindNTFS is a NTFS data recovery tool which lists or copies files from an NTFS partition.
http://home.att.net/~short.stop/freesoft/disk1.htm
2. first boot your computer to DOS using a bootable disk.
3. USE THIS COMMAND on the DOS Prompt :
C:\> findntfs 1 1 1 1 c:\recover.txt files
This command tells The FINDNTFS program to search the entire specified disk for NTFS files, and output the file list to a text file 'recover.txt' on the C: drive.
NOTE : THE DRIVE USED TO STORE 'recover.txt' FILE MUST NOT BE THE DRIVE FROM WHICH THE DATA IS TO BE RECOVERED AS IT CAN OVERWRITE OUR DATA WHICH IS TO BE RECOVERED.
4. Now go to C: drive and open 'recover.txt' file & search for the file you want to recover, if u find the file scroll up a bit to see on which folder is it located. and note down the number preceding the name of the folder.
5. Now on THE DOS prompt type :
C:\> findntfs 1 1 1 1 copy XXXX
where XXXX denotes the directory number you noted in the step 4.
NOTE : FINDNTFS will save your data only on the drive findntfs itself is located so make sure you have enough space for recovery. and secondly it can recover the file only on an NTFS partition so take care of this too.
AFTER RECOVERY CHECK THE FILE IF ITS CONTENTS ARE INTACT.
NTFS READER
1. ok you can use this tool NTFS READER :
http://www.ntfs.com/products.htm
it can copy NTFS files onto DOS (FAT) partitions.
NOTE : The limitation of this program is that it cannot read from partitions that have damaged boot sectors, or from drives with damaged partition tables, as it needs to be able to see the NTFS partition before it copies data from it. ALSO NTFS reader will also work under Windows 9x/ME but not on 2K or XP, due to restrictions these Operating systems place on accessing drives directly.
LOST DATA FROM THE RECYCLE BIN
TRY THIS LINK : http://www.pcinspector.de/file_recovery/uk/download.htm
So, I Am sure that If u follow this steps u will have a SUCCESSFUL data recovery.
IMPORTANT POINTS
1. Never store your important data on the drive your OS is installed.
2. Always Keep a backup of your important data.
3. NEVER WRITE ANYTHING ON THE DISK FROM WHICH DATA IS TO BE RECOVERED UNTIL YOUR DATA IS RECOVERED.
4. TRY TO KEEP YOUR HARD DISK DRIVE IN A GOOD CONDITION BY USING TOOLS LIKE DISK DEFRAGEMENT & OTHERS.
5. AVOID USING SHIFT+DEL TO DELETE FILES.
6. BE CAUTIOUS WHILE USING THE FORMAT COMMAND.
SOFTWARES
Below are some great data recovery software links :
R-Studio http://www.r-tt.com
Disk Commander http://www.winternals.com/products/repairandrecovery/diskcommander.asp
File Rescue 2.5 http://www.file-rescue.com
GetDataBack for FAT GetDataBack for NTFS http://www.runtime.org
Norton Utilities/SystemWorks http://www.symantec.com
Undelete http://www.executive.com/consumer/undelete/undelete.asp
Hard Drive Mechanic http://www.highergroundsoftware.com/6.html
http://www.highergroundsoftware.com/downloads2.htm
Back2Life http://www.simtel.net/pub/pd/57588.html
DFSee/ http://www.dfsee.com
Fast File Recovery http://savemyfiles.com/fastfile.htm
Undelete 3.0 http://www.pcconnection.com/scripts/productdetail.asp?product_id=309884
Active UNERASER http://www.uneraser.com/undelete.htm
File Scavenge http://www.quetek.com/prod02.htm
File Restore http://www.winternals.com/products/repairandrecovery/filerestore.asp
File Recover 2000 / http://www.filerecover.com
Undelete http://www.quantumsoft.co.uk/undelete.stm
Fast File Undelete http://www.dtidata.com/products_ff_undelete.asp
Data Recovery http://www.dtidata.com
For NTFS http://www.restorer2000.com/r2k.htm
HDD REGENERATOR : http://www.softpedia.com/get/System/Hard-Disk-Utils/HDD-Regenerator.shtml
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Tuesday, November 6, 2007
Hard Disk Data Recovery
Monday, November 5, 2007
Black Holes
Hi, I Am Shirish Mishra, This is a Paper presentation on black holes created by me & my 4 friends Nakul,Prateek,Saransh & Aditya For Our College.The Research was done by nakul & the typing was done by me while all of us presented the paper in our class, 'Illuminati' was the name of our group....
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Illuminati
Paper Presentation
B.Tech I Sem.
Information Technology
NIT
13 Oct. 2007
Black Holes
One of the horrors of a science fiction is falling into a Black Hole. In
Fact, black holes have now become really matters of science fact rather than science
Fiction. There are good reasons for predicting that black holes should exist, and the
Observational evidence points strongly to presence of number of black holes in our
Own galaxy and more in other galaxies.
In very general, a black hole is a region of
Space that has so much mass concentrated in it that there is no way for a nearby
Object to escape its gravitational pull. This pull is so strong that even light cannot
Escape this pull. But, let us first understand what this pull is. Law of gravitation
Suggest that every object exerts a force on every other object in universe. This force
is our pull in this case.
Suppose that you are standing on the surface of a planet. You
throw a rock straight up into the air. Assuming you don’t throw it too hard, it will rise
For a while, but eventually the acceleration due to gravity will make it start to fall
Down again. Now suppose you throw the rock hard enough, you can make
It escape the planet’s gravity entirely. It would keep on rising forever. The speed with
Which you need to throw the rock in order that it just escapes planet’s gravity (or
Planet’s gravitational pull) is called “Escape Velocity“. The Escape velocity depends on
mass of planet; if the planet is extremely massive, then its gravity (or its gravitational pull)
is very strong, and the escape velocity needed is also very high. The escape velocity also
depends on how far you are from planet’s centre (or centre of gravitational pull). The closer
you are, the higher the escape velocity needed to leave the area of gravitational influence of
the planet (or object).
Now imagine an object with such
an enormous concentration of mass in such a small radius that its escape velocity is
greater than the velocity of light. Then since nothing can go faster than light, nothing
can escape the object’s gravitational pull. Now, there are two theories about light :
One, which Newton favoured was that light is composed of particles
And the other that said light is made of waves. Under theory that light is made up
of waves, it is unclear that now it will respond to gravity but if light is composed of
particles, one might expect them to be affected by gravity in same way other objects
as rockets, cannonballs, and planets are. And the discovery that the light travels at a
finite speed means that gravity might have an important effect. Based on this assumpt-
ion, in 1783, scientist named Jon Michelle wrote a paper in Philosophical Transaction
of the Royal Society of London, in which he pointed out that :
“A star that was sufficiently massive & compact would have such a strong
gravitational field that the light could not escape: any light emitted would be dragged back
by the star’s gravitational attraction before it could get very far” (Stephen Hawking, 1998,
86).
Loosely speaking, a black hole is a region of space in which gravitational field is
so powerful that nothing can escape from it, having fallen past the event horizon. In
general, event horizon is a boundary for an area surrounding black hole, beyond which
events inside black hole cannot affect the outside observer(or outside world). But this
horizon has some really strange properties. To an observer sitting somewhere far away
from the black hole , the horizon seems to be a nice , static , unmoving spherical surface
but once you get close to the horizon , you realize that it has a very very large velocity. In
fact , it is moving outward at the speed of light! This explains why it is easy to cross
horizon in inward direction , but impossible to get back out. Since the horizon is
moving out at the speed of light, in order to escape back across it, one would have to
travel faster than light. One cannot go faster than light and hence you cannot escape
from black hole. “Trying to avoid centre of black hole once you’ve crossed the horizon
is just like trying to avoid next Thursday,” (Ted Bunn, 1955 , Q-1)
After having understood what a black hole is, let us now try to understand how a
black hole is formed. To understand this, we first need basic understanding of life
cycle of a star. A star is formed when large amount of gas, mostly hydrogen starts to
collapse in on itself due to it’s gravitational attraction, in space. As the gas contracts,
the atoms if the gas collide with each other more & more, heating up the gas. Ultimately,
the gas will be so hot that when the hydrogen atoms collide, they coalesce to form helium.
The heat released in this reaction makes the star shine. This extra heat increases pressure of
gas. This pressure goes on increasing until it is sufficient to balance the gravitational
attraction between atoms (or molecules) of gas, and as a result of which gas stops
contracting. Star(s) will remain stable for long time, with heat from fusion reaction
balancing the gravitational attraction. This could be better understood with the analogy,
“ It is bit like a balloon - there is a balance between the pressure of
the air inside , which is trying to make the balloon expand , and the tension in the
rubber, which is trying to make the balloon smaller.” (Stephen Hawking, 1998, 87)
However, sooner or later the star will run out of its
hydrogen & other nuclear fuels. So when a star will run out of fuel, it will start to
cool off and so to contract. But, in early 1920s , an Indian graduate student ,
Subrahmanyam Chandrashekhar , worked out how a star could still support itself
against its own gravity even after it has used up all its fuel. He suggested, when the
star becomes small , the matter particles comes very close to each other, and so by
according to Pauli’s Exclusion Principle, they must have very different velocities.
This makes them move away from each other and so tends to make the star expand.
Thus, a star can maintain itself at a constant radius due to balance between attraction
of gravity and the repulsion that arises from exclusion principle, same way earlier
gravity and heat were balanced.
But there is a limit to the repulsion that the exclusion
principle can provide . Theory of relativity limits the maximum difference in
velocities of matter particles in the star to the speed of light. Which means that, when
star got sufficiently dense , repulsion caused by exclusion principle would be less than
attraction of gravity. A cold star more than about one & half times the mass of sun
would not be able to support ( or balance) itself against its own gravity. But if it is less
than twice the mass, it will eventually stop contracting and will settle down to a stable
state. These state could be any of either a White Dwarf or a Neutron Star.
A star with a mass more than about twice that of the sun cannot
settle down as a White Dwarf or Neutron Star. In Some cases, the star may explode &
then throw enough matter to bring it’s mass below the limit. But this won’t happen in
all cases. In this case,
“Some stars will become so small that their gravitational field
will bend light to the point that it comes back towards the star. No further light, or
anything else, will be able to escape. The star will have become black holes.”(Stephen
Hawking, 1994, 108)
Another Important part of study of black holes include size of
black holes. There are at least two different ways to describe how big something is.
We can say how much massive the object is or how much space it takes up. There is
no limit to how much or how little mass a black hole can have. A typical mass for a stellar
black hole would be about 10 times the mass of Sun or about 10³¹ Kilograms (10³¹
means a 1 followed by 31 zeros after it ). It is also suspected that many galaxies
harbour extremely massive black holes at their centres. These are thought to weight
about a million times as much as sun.
Size of black holes, in terms of space also,
follows that , the more massive a black hole is , the more space it takes up. The
Schwarzschild radius (radius of horizon) and the mass of black holes bears a direct
relation between them. If one black hole weights ten times as much as another, its
radius is ten times as large.
Before proceeding further, lets just study
inverse of black hole. The equations of general relativity have an interesting
mathematical property; they are symmetric in time. That means that you can take any
solution to the equations and imagine that time flows backwards rather than forwards,
& you’ll get another valid solution. If this rule is applied to solution that describes
black holes, an object known as white hole is obtained. Since the black hole is a
region of space from which nothing can escape , the time reversed version of black
hole is region of space into which nothing can fall. Just as black holes can only sink
things in, a while hole can only spit things out. But, they aren’t actually found to exist
in nature. In fact, they almost certainly do not exist in nature, since there’s no way to
producing more.
Now, let’s ponder over an interesting thought, what would happen
to an object if it ever fell into black hole-
“A common suggestion is that if black hole is rotating , you can fall
through a little hole in space-time and out into another region of universe. This
obviously raises great possibility for space travel. Indeed, we will need something like
this if travel to other stars, bet alone to other galaxies, is to be a practical proposition
in the future. Otherwise, the fact that nothing can travel faster than light means the
round trip to the nearest star would take at least eight years. So much fir a weekend
break on Alpha Centauri! On the other hand , if one could pass through a black hole,
one might re-emerge(through a white hole) anywhere in the universe. Quite how to
choose your destination is not clear : you might set out for a holiday in Virgo and end
up in Crab Nebula.
I’m sorry to disappoint prospective galactic tourists, but this
scenario doesn’t work: if you jump into a black hole, you will get torn apart &
crushed out of existence.” (Stephen Hawking, 1994 , 104-5)
Let us consider an object falling into black hole. What would
happen to it? At first, there won’t be any gravitational force, since it’s a free fall. But
as the object gets closer & closer to centre of the hole, a tidal gravitational force starts
acting on it. In this, the part of object that is closer to centre than other part of object,
will be acted more by tidal force. So there will be difference in force acting at
different parts on the object. So, it will be stretched. These tidal forces will get more
& more intense as object gets closer to the centre & eventually they will rip the object
apart.
For a very large black hole, the one we’ve considered, object falling in, the
tidal forces are not really noticeable until it gets within about 600,000 km from centre.
But, if object is falling in smaller black hole, consider weighing as much as sun, the
forces will come into play at about 6000 km away from the centre and the object
would be torn apart even before it had crossed the horizon. That’s why we chose a
bigger black hole, we wanted object to survive at least until it gets inside! However,
whatever must be said, there are still debates on existence of black hole since as
earlier said , even light can’t return from a black hole. One can’t see a black hole
directly which means that we have to rely on indirect evidences. Suppose you’ve
found a region of space where you think there might be black hole. Then to check
authenticity of idea, we first need to check how much mass lies there in that region. If
you’ve found a large mass concentrated in small volume, and if the mass is dark, then
it’s a good guess that there’s a black hole there.
Physicist Tanmay Vachospati , Dejan
Stojkovic & Lawrence M. Krauss in the article, “Observation of incipient black hole
& the information loss problem”, have raised doubts against existence of black holes.
“ The Question that physicists set out to solve is :-
What happens when something collapses into black hole ? If all information is lost, it
defies the laws of Quantum Physics. Yet , in current thinking, once the matter goes
over the event horizon and forms a black hole, all information about it is lost.
“ (blog.case.edu)
However, two recent discoveries have been made that strongly
supports the hypothesis of existence of black hole. First, a nearby active galaxy was found
to have a "water maser" system near it's nucleus. Using advanced technique researchers
were able to map velocity within less than half a light year of the centre of the galaxy.It is
hard to imagine anything other than black hole there. Second discovery provides more
compelling evidence X-Ray astronomers have detected a spectral line from one galactic
nucleus that indicates presence of atoms near nucleus that are moving extremely fast. This
could be expected a black hole.
The next question in series is If a black hole existed would
it suck up all the matter in the universe? The simplest answer to this question is NO, 'cause
the black hole has a "horizon”, beyond which nothing can be affected as long as it is well
outside horizon. One common raised doubt is what if Sun became a black hole? Well, it just
won't happen, because only stars weighing more than twice the sun end their lives as black
hole. But we’d still like to assure that Sun has no intentions of becoming a BLACK HOLE,
at least for another five billion years!
Work Cited
1. Hawking , S.(1998) , A Brief History of Time , Berkshire (Great Britain),
Bantam Books, Inc.
2. Hawking , S.(1994) , Black Holes & Baby Universe, (Great Britain) Berkshire ,
Bantam Books, Inc.
3. White, M & Gribbin, J (1998) , Stephen Hawking : A Life in Science , London ,
Penguin Books, Inc.
4. http://blog.case.edu/case-news/2007/06/20/blackholes.html
5. http://cosmology.berkeley.edu/education/Bhfaq.html
6. http://en.wikipedia.org/wiki/black_holes.html
7. http://library.thinkquest.org/c0110484/content.php?id=31
8. http://rtfm.mit.edu
9. http://www.google.com
10. http://live.msn.com