Do Transistors Represent Binary Data at Martina Gardner blog

Do Transistors Represent Binary Data.  — also, transistors don’t really work directly with binary digital abstractions, but with varying voltage and/or current.  — in the 'on' state, a transistor allows current to flow between its collector and emitter (for a bipolar junction transistor, or bjt) or between its.  — modern computers use what's known as a transistor to perform calculations with binary. this is a basic function that we use in digital logic circuits, such as those found in computers, where we use transistors to represent the ones and zeros of binary. This is the reason why computers can.  — as we have already seen, numbers can be translated from decimal to binary, and vice versa, e.g., ‘5’ in decimal is ‘101’ in binary.  — a transistor is an electronic switch that can be turned on (1) or off (0).

 — also, transistors don’t really work directly with binary digital abstractions, but with varying voltage and/or current. this is a basic function that we use in digital logic circuits, such as those found in computers, where we use transistors to represent the ones and zeros of binary.  — as we have already seen, numbers can be translated from decimal to binary, and vice versa, e.g., ‘5’ in decimal is ‘101’ in binary.  — in the 'on' state, a transistor allows current to flow between its collector and emitter (for a bipolar junction transistor, or bjt) or between its.  — a transistor is an electronic switch that can be turned on (1) or off (0). This is the reason why computers can.  — modern computers use what's known as a transistor to perform calculations with binary.

Digital Signals and Gates Logic Gates Electronics Textbook

Do Transistors Represent Binary Data  — a transistor is an electronic switch that can be turned on (1) or off (0).  — in the 'on' state, a transistor allows current to flow between its collector and emitter (for a bipolar junction transistor, or bjt) or between its. This is the reason why computers can.  — a transistor is an electronic switch that can be turned on (1) or off (0).  — also, transistors don’t really work directly with binary digital abstractions, but with varying voltage and/or current.  — as we have already seen, numbers can be translated from decimal to binary, and vice versa, e.g., ‘5’ in decimal is ‘101’ in binary.  — modern computers use what's known as a transistor to perform calculations with binary. this is a basic function that we use in digital logic circuits, such as those found in computers, where we use transistors to represent the ones and zeros of binary.