diff --git a/en_US.ISO8859-1/books/faq/book.xml b/en_US.ISO8859-1/books/faq/book.xml
index 22ccf55a8a..b770165767 100644
--- a/en_US.ISO8859-1/books/faq/book.xml
+++ b/en_US.ISO8859-1/books/faq/book.xml
@@ -1475,81 +1475,6 @@
-
-
- Which geometry should I use for a disk drive?
-
-
-
-
- By the geometry of a disk, we mean
- the number of cylinders, heads and sectors/track on a
- disk. We will refer to this as C/H/S for convenience.
- This is how the PC's BIOS works out which area on a disk
- to read/write from.
-
-
- This causes a lot of confusion among new system
- administrators. First of all, the
- physical geometry of a SCSI drive is
- totally irrelevant, as &os; works in term of disk blocks.
- In fact, there is no such thing as the
- physical geometry, as the sector density varies across the
- disk. What manufacturers claim is the physical
- geometry is usually the geometry that they have
- determined wastes the least space. For IDE disks, &os; does
- work in terms of C/H/S, but all modern drives internally
- convert this into block references.
-
- All that matters is the logical
- geometry. This is the answer that the BIOS gets when it
- asks the drive what is your geometry? It then
- uses this geometry to access the disk. As &os; uses the
- BIOS when booting, it is very important to get this right.
- In particular, if you have more than one operating system on
- a disk, they must all agree on the geometry. Otherwise you
- will have serious problems booting!
-
- For SCSI disks, the geometry to use depends on whether
- extended translation support is turned on in your controller
- (this is often referred to as support for DOS disks
- >1GB or something similar). If it is turned off,
- then use N cylinders, 64 heads
- and 32 sectors/track, where N is
- the capacity of the disk in MB. For example, a 2 GB disk
- should pretend to have 2048 cylinders, 64 heads and 32
- sectors/track.
-
- If it is turned on (it is often
- supplied this way to get around certain limitations in
- &ms-dos;) and the disk capacity is more than 1 GB, use
- M cylinders, 63 sectors per track
- (not 64), and 255 heads, where
- M is the disk capacity in MB
- divided by 7.844238 (!). So our example 2 GB drive
- would have 261 cylinders, 63 sectors per track and 255
- heads.
-
- If you are not sure about this, or &os; fails to detect
- the geometry correctly during installation, the simplest way
- around this is usually to create a small DOS partition on
- the disk. The BIOS should then detect the correct geometry,
- and you can always remove the DOS partition in the partition
- editor if you do not want to keep it. You might want to
- leave it around for programming network cards and the like,
- however.
-
- Alternatively, there is a freely available utility
- distributed with &os; called
- pfdisk.exe. You can find it in the
- tools subdirectory on
- the &os; CD-ROM or on the various &os; FTP sites. This
- program can be used to work out what geometry the other
- operating systems on the disk are using. You can then enter
- this geometry in the partition editor.
-
-
-
Are there any restrictions on how I divide the disk
@@ -1606,8 +1531,8 @@
This is classically a case of &os; and some other
- OS conflicting over their ideas of disk geometry. You will have to
+ OS conflicting over their ideas of disk
+ geometry. You will have to
reinstall &os;, but obeying the instructions given above
will almost always get you going.