Deck 12: A: Boolean Algebra

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When written as a product of maxterms (in the variables x and y), .

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There are Boolean functions with 2 variables.

mark each statement TRUE or FALSE.

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The idempotent laws in a Boolean algebra state that and .

mark each statement TRUE or FALSE.
Every Boolean function can be written using only the operators , +, and · .

mark each statement TRUE or FALSE.

mark each statement TRUE or FALSE.
The circuit diagrams for

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Using can be written in terms of , +, and · as .

mark each statement TRUE or FALSE.

mark each statement TRUE or FALSE.

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There are Boolean functions with 3 variables.

mark each statement TRUE or FALSE.
When written as a sum of minterms in the variables x and

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When written as a sum of minterms in the variables x and

mark each statement TRUE or FALSE.

mark each statement TRUE or FALSE.

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Using can be written in terms of , +, and · as .

mark each statement TRUE or FALSE.

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There are Boolean functions with 4 variables.

mark each statement TRUE or FALSE.

Write 1 as a sum-of-products in the variables x and y.

Write as a sum-of-products in the variables x, y, and z.

If = + , find (0,1,0,1) .

Prove that F=G , where = and

Write x + y as a sum-of-products in the variables x and y.

If = + , find (1,0,1,1)

If = + , find

Find the sum-of-products expansion of the Boolean function f(x, y, z) that is 1 if and only if either x = z = 1 and y = 0, or x = 0 and y = z = 1.

mark each statement TRUE or FALSE.
The circuit diagrams for

Write x + z as a sum-of-products in the variables x, y, and z.

Find a Boolean function

Write as a sum-of-products in the variables x, y, and z.

Find the sum-of-products expansion of the Boolean function f(x, y, z) that is 1 if and only if exactly two of the three variables have value 1.

Show that the Boolean function only the definition of a Boolean algebra.

Find the sum-of-products expansion of the Boolean function f(x, y) that is 1 if and only if either x = 0 and

Write as a sum-of-products in the variables x and y.

If = + , find

If = + , find (1,1,1,1) .

If = + , find (0,0,1,0).

Write as a sum-of-products in the variables x, y, and z.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

Give a reason for each step in the proof that x + x = x is true in Boolean algebras. Your reasons should come from the following: associative laws for addition and multiplication, commutative laws for addition and multiplication, distributive law for multiplication over addition and distributive law for addition over multiplication, identity laws, unit property, and zero property.

Prove that the set of real numbers, with addition and multiplication of real numbers as + and · , negation as complementation, and the real numbers 0 and 1 as the 0 and the 1 respectively, is not a Boolean algebra.

Using only the five properties associative laws, commutative laws, distributive laws, identity laws, and com- plement laws, prove that is true in all Boolean algebras.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

Using only the five properties associative laws, commutative laws, distributive laws, identity laws, and com- plement laws, prove that x + (x y) = x is true in all Boolean algebras.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

Give a reason for each step in the proof that x + xy = x is true in Boolean algebras. Your reasons should come from the following: associative laws for addition and multiplication, commutative laws for addition and multiplication, distributive law for multiplication over addition and distributive law for addition over multiplication, identity laws, unit property, zero property, and idempotent laws.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

Give a reason for each step in the proof that x + 1 = x is true in Boolean algebras. Your reasons should come from the following: associative laws for addition and multiplication, commutative laws for addition and multiplication, distributive law for multiplication over addition and distributive law for addition over multiplication, identity laws, unit property, and zero property.

Using only the five properties associative laws, commutative laws, distributive laws, identity laws, and com- plement laws, prove that x + 1 = 1 is true in all Boolean algebras.

Using only the five properties associative laws, commutative laws, distributive laws, identity laws, and com- plement laws, prove that x + x = x is true in all Boolean algebras.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

determine whether the statement is TRUE or FALSE. Assume that x, y, and z represent
Boolean variables.

Show that the Boolean function only the definition of a Boolean algebra.

Draw a logic gate diagram for F .

Use the Quine-McCluskey method to simplify the Boolean expression

Draw a logic gate diagram for F .

Construct a circuit using inverters, OR gates, and AND gates that gives an output of 1 if and only if three people on a committee do not all vote the same.

Draw a logic gate diagram for the Boolean function

Use the Quine-McCluskey method to simplify the Boolean expression

Show that F can be simplified to give