Binary and transistors are closely related as transistors serve as the fundamental building blocks of digital electronics, enabling the representation and manipulation of binary data. In binary systems, data is expressed in two states: 0 and 1. Transistors can act as switches, controlling the flow of electrical current to represent these two states, thus allowing computers and digital devices to process binary information efficiently. This relationship underpins the operation of virtually all modern electronic devices.
they are both numbers
The binary number 1000011 is equal to the decimal number 67. See the related link, 'Binary Numbers' below this answer.
The binary system, which uses only two digits (0 and 1), offers several advantages, particularly in computing. First, it simplifies electronic circuit design, as binary states correspond easily to the on/off states of transistors. This leads to increased reliability and efficiency in data processing and storage. Additionally, binary representation allows for straightforward implementation of logical operations, making it foundational for programming and digital communication.
01001001 01000110 (uppercase IF) (see the related link)
Yes, a standard system for numbering using zeros and ones is the binary system. In binary, each digit represents a power of two, with 0 and 1 used to indicate the presence or absence of that power. This system is fundamental in computing and digital electronics, as it aligns with the on/off states of transistors.
they can't
they can't
Nowadays, transistors are mainly used.
Transistors can be used to represent binary data by acting as switches that can be in one of two states: ON or OFF. In digital circuits, the ON state is typically represented by a transistor conducting current (logic level 1) and the OFF state by a transistor not conducting current (logic level 0). By turning transistors ON and OFF in specific combinations, binary data can be encoded and processed in electronic devices.
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.
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.
The way a computer works is there are transistors in the computer chips, the transistor controls the flow of power much like a light switch.the transistors can be on or off, and that is why binary is key because your computer is made up of 1s and 0s or on and off or true or false.
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.
Yes. Any electronic device that need to move information uses binary code
Transistors. And all the related offshoots.
Stinky cheese
binary