Magnetic tape is measured in feet or metres.
The speed for magnetic tape can vary depending on the specific tape drive and settings used. Generally, tape drives have a data transfer rate measured in MB/s (megabytes per second) or GB/s (gigabytes per second). Modern tape drives can have speeds ranging from tens to hundreds of MB/s.
The speed of a magnetic tape can vary depending on the specific technology and design of the tape drive being used. Typically, data transfer speeds for magnetic tapes range from a few megabytes per second to tens of megabytes per second. Industry standards like Linear Tape-Open (LTO) tapes generally have speeds ranging from 150 MB/s to 300 MB/s.
GBs are measured in megabytes... 1 GB = 1000 MB
Yes, it is true that the file size measured in MB (megabytes) is bigger than the file size measured in KB (kilobytes).
File sizes measured in kilobytes (KB) are smaller than file sizes measured in megabytes (MB). 1 megabyte is equal to 1,000 kilobytes.
A CD-ROM's storage capacity is measured in Megabytes (MB), and they are generally 650-700MB.
it is measured in mb response time is measured in nanoseconds
it can be measured in bytes, kilobytes, megabytes, gigabytes, terabytes, exobytes, etc. also, it can be measured in bits
All Emory can be measured in megabytes (MB). The smallest unit is a byte, then kilobyte (1000 bytes), megabyte (1000 KB), gigabyte (1000 MB), terrabyte (1000 GB). A megabyte is just an increment. Just like a foot and an inch bother measure length.
Depends on the size, but today they are usually measured in Gigabytes, although older devices might be measured in Megabytes.
300-465 mb If the Questioner means the "media storage" (how much data can a tape cartridge store) the answer is different. Just like the old cassette & VHS, there are different storage sizes depending on the tape's label. We use LTO-3's cartridges that can hold up to 400GB of data (800GB if compressed). Current mag-tape storage can range from 100GB for the old LTO-1's up to 1500GB (that's 1.5TB!) for the new (and wildly expensive) LTO-5's.
F = mB - mB =0 a bar magnet is placed in a uniform magnetic field B, its poles +m and -m experience force mB and mB along and opposite to the direction of magnetic field B.