1 frame= 1000 bytes
where, 1 byte= 8 bits
therefore, 1 frame=8000 bits
sixth bit is 1 seventh bit is 1 eigth bit is 0
Taken from http://bmrc.berkeley.edu/frame/research/mpeg/mpeg_overview.html The typical data rate of an I-frame is 1 bit per pixel while that of a P-frame is 0.1 bit per pixel and for a B-frame, 0.015 bit per pixel.
2 bytes because 8-bits is equal to one 1 byte
A bit is an abstract concept, equal to one binary digit (0 or 1).
In order to know how many bits/second there are in 1 frame/second, you need to know how many bits are in that frame. In a typical asychronous serial protocol with 8 bits per frame, the bit rate would be 0.125 bits/second. If you are talking the IP network layer of TCP/IP, then the frame size is very dependent on the underlying message payload and headers.The original question, by the way, is invalid. Its asks "how many bits does...", but it should have asked "how manys bits per second does...".
1 bit = 0.25 nibbles (4 bits to a nibble) or 1 bit = 0.125 bytes (8 bit to a byte) ---- The above....is confusing....dunno... Here's a better answer. Either 1 or 0. Bit is an acronym for Binary Digit.
1 liter is equal to 1000 milliliters, or ml. So 180ml is quite a bit smaller than 1000ml, or 1 liter
The conversion from inches to centimeters for a bike frame size is that 1 inch is equal to 2.54 centimeters.
The answer depends on what R is. And since you have not bothered to share that crucial bit of information, I cannot provide a more useful answer.
The answer depends on what R is. And since you have not bothered to share that crucial bit of information, I cannot provide a more useful answer.
Yes, bit stuffing is needed for the control field in HDLC frames, similar to the address and Frame Check Sequence (FCS) fields. Bit stuffing is used to prevent the occurrence of specific bit patterns, such as the frame delimiter (0x7E), within the data fields, including the control field. By inserting a '0' after a sequence of five consecutive '1's, bit stuffing ensures that the frame remains distinguishable and can be correctly framed during transmission and reception.
A kilogram and a kilogram are the same unit. Therefore, one kilogram is equal to one kilogram.