they can't
Inside transistors there are small particles which are binary data which stores memory in 1972 there was 2000. And today... Is 2,600,000,000
Read more: How_do_transistors_represent_binary_data
Inside transistors, there are small particles, which are binary data that stores memory. in 1972 there were 2000 and today there are 2,600,000,000.
Inside transistors there are small particles which are binary data which stores memory.
get a life people
they cant
Because it does
they cant ;D
they can't
Yes. Any electronic device that need to move information uses binary code
Digital Data is data that is stored in binary, and a Digital Device is any device that works with binary data
Computers work with a binary number system that consists of only two digits - zero and one. Inside the computer binary number is represented by an electrical pulse. One means a pulse of electricity and zero means no pulse. All the data entered into computers is first converted into the binary number system. One digit in binary number system is called bit and combination of eight bits is called byte. A byte is the basic unit that is used to represent the alphabetic, numeric and alphanumeric data. Data is represented inside a computer as a series of on and off pulses. Humans think of those pulses in terms of a binary-based numbering system. Data is the combination of characters, numbers and symbols collected for a specific purpose. Data is divided into three types; alphabetic data, numeric data and alphanumeric data. Numeric data consist of ten digits 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, two signs + and - and decimal point . There are different types of number system that are used to represent numeric data. These number systems are decimal number system, binary number system, octal number system and hexadecimal number system. Alphabetic data is used to represent 26 alphabetic. It consist of capital letters from A to Z, small letters from a to z and blank space. Alphabetic data is also called nonnumerical data. Alphanumeric data used to represent alphabetic data, numeric data, special character and symbols.
A video card or video adapter translates binary data into images.
they can't
Binary code is a base 2 number system, with only the digits 0 and 1. It is used to represent the on/off states of transistors in integrated circuits, with 0 representing off and 1 representing on. So, binary codes represent the possible states of hardware transistors, and the binary codes represent numbers and letters through a coding system like ASCII or EBCDIC.
By driving them to saturation - so that they're either on or off.
0 and 1 are two integers. They may represent binary digits or binary data but they need not.
Digital computers use binary numbers because that is easier for them, and the easiest way for humans to represent what goes on inside of computers. Computers contain millions of transistors inside the various ICs in the computer. Transistors can generally be on or off. Sure, it is possible for transistors to have a range, but then, in this case, it wouldn't be digital. So since the transistors are used as on-off switches, it is easiest to represent them as binary digits, since they can either be on or off.
Yes. Any electronic device that need to move information uses binary code
Modulation
The electricity pulse represent a binary code which can be read by the tablet. Also the binary code can be transmitted by wireless signals.
A transistor has two states, on or off. That's why the computer has to use binary, because it's made of transistors. It can't have an intrinsic value of, say, 7, because its components only have 2 states. So, it uses groups of 1's and 0's (on and off transistors somewhere in the circuitry) to represent higher concepts and meanings.
It uses the Binary Numbering System.
Computers do not understand decimal notation. All information (both instructions and data) must be converted to a binary representation before the machine can understand it. We use the symbols 0 and 1 (binary notation) but the machine has a variety of physical representations it can use to encode binary data, including transistors, flux transitions, on/off switches and so on.
Binary Data is transmitted on Data Buses.