But in the inode-article, it states:
The space in ext2 is split up in blocks, and organized into block groups, analogous to cylinder groups in the Unix File System. This is done to reduce external fragmentation and minimize the number of disk seeks when reading a large amount of consecutive data.
Each block group may contain a copy of the superblock and block group descriptor table, and all block groups contain a block bitmap, an inode bitmap, an inode table and followed by the actual data blocks.
The superblock contains important information that is crucial to the booting of the operating system, thus backup copies are made in multiple block groups in the file system. However, typically only the first copy of it, which is found at the first block of the file system, is used in the booting.
The group descriptor stores the location of the block bitmap, inode bitmap and the start of the inode table for every block group and these, in turn are stored in a group descriptor table.
So I get the impression wikipedia states in quote1 that the inodes are spread all throughout the disk, and in quote2, that they are stored at a specific location. I think I'm just having serious trouble visualizing how the connection between kernel, the inodes, and the location of the inodes on the disk, work.
The inode number indexes a table of inodes in a known location on the device; from the inode number, the kernel can access the contents of the inode, including the data pointers, and so the contents of the file.