George Boole invented it sometime in the
1840's.
The prototypical Boolean algebra; i.e. the Boolean algebra defined over the Boolean domain, has two elements in it: 0 and 1. For more information about Boolean algebra, please refer to the related link below.
J. Kuntzmann has written: 'Fundamental Boolean algebra' -- subject(s): Algebra, Boolean, Boolean Algebra
AND, OR, and NOT are the basic operators in Boolean Algebra.
Most likely it is called BOOLEAN ALGEBRA I.
A. G. Pinus has written: 'Boolean constructions in universal algebras' -- subject(s): Algebra, Boolean, Algebra, Universal, Boolean Algebra, Universal Algebra
George Boole invented Boolean algebra.
Chris A. Theodore has written: 'Boolean algebra and digital computers' -- subject(s): Algebra, Boolean, Boolean Algebra, Logic circuits
Denis Artem'evich Vladimirov has written: 'Boolesche Algebren [von] D.A. Vladimirov' -- subject(s): Algebra, Boolean, Boolean Algebra 'Bulevy algebry' -- subject(s): Algebra, Boolean, Boolean Algebra
true and false
George Boole introduced Boolean algebra in his work titled "The Laws of Thought," published in 1854. This mathematical framework laid the foundation for modern logic and has had a profound impact on computer science and digital circuit design. Boolean algebra formalizes the operations of logic and is fundamental to various fields including mathematics, computer science, and electrical engineering.
One use of Boolean algebra is to minimize any function or logic gate.
Algebra is a very broad topic covering all sorts of things, including Boolean algebra. Boolean algebra in itself is the study of a variable called "Boolean." This variable can only take two values: true and false. See 'related links' for more information.