Boolean algebra uses the numbers 0 and 1 to represent statements which are False and True respectively.
Although it is more logical and closer to science than maths, boolean algebra can be used with normal algebra on planes, and it uses variables.
Boolean Algebra is a type of math in which the values of the variables are true and false. The algebra is the basis for digital logic, computer programming and mathematical logic.
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.
Most likely it is called BOOLEAN ALGEBRA I.
Boolean algebra uses the numbers 0 and 1 to represent statements which are False and True respectively.
Although it is more logical and closer to science than maths, boolean algebra can be used with normal algebra on planes, and it uses variables.
Boolean Algebra is a type of math in which the values of the variables are true and false. The algebra is the basis for digital logic, computer programming and mathematical logic.
G. F. South has written: 'Boolean algebra and its uses' -- subject(s): Boolean Algebra, Switching theory
Boolean algebra deals with logic and truth as it pertains to sets and possibilities. It uses the and, or and not operators to set up truth tables to define if a statement is true or not.
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