the negation of the Boolean expression \( ((\sim q) \wedge p) \Rightarrow \) \( ((\sim p) \vee q...
the negation of the Boolean expression \( ((\sim q) \wedge p) \Rightarrow \) \( ((\sim p) \vee q) \) is logically equivalent to
(a) \( p \Rightarrow q \)
(b) \( q \Rightarrow p \)
(c) \( \sim(p \Rightarrow q) \)
(d) \( \sim(q \Rightarrow p) \)
📲PW App Link - https://bit.ly/YTAI_PWAP
🌐PW Website - https://www.pw.live
Other Videos By PW Solutions
| 2023-07-03 | Suppose a class has 7 students. The average marks of these students in the mathematics examinati... |
| 2023-07-03 | Let \( p, q, r \) be three logical statement. Consider the compound statements
\( S_{1}:((\sim p... |
| 2023-07-03 | Let \( r \in\{p, q, \sim p, \sim q\} \) be such that the logical statement \( r \vee(\sim p) \Ri... |
| 2023-07-03 | The number of choices of \( \Delta \in\{\wedge, \vee, \Rightarrow, \Leftrightarrow\} \), Such th... |
| 2023-07-03 | The Boolean expression \( (\sim(p \wedge q)) \vee q \) is equivalent to :
(a) \( q \rightarrow(p... |
| 2023-07-03 | Consider the following two proposition:
\[
\begin{array}{l}
P_{1}: \sim(p \rightarrow \sim q) \\... |
| 2023-07-03 | the negation of the Boolean expression \( ((\sim q) \wedge p) \Rightarrow \) \( ((\sim p) \vee q... |
| 2023-07-03 | Consider the following statement :
\( A: \) Rishi is judge.
\( B: \quad \) Rishi is honest.
\( C... |
| 2023-07-03 | Let \( p, q, r \) be three logical statement. Consider the compound statements
\( S_{1}:((\sim p... |
| 2023-07-03 | The Boolean expression \( (\sim(p \wedge q)) \vee q \) is equivalent to :
(a) \( q \rightarrow(p... |
| 2023-07-03 | the negation of the Boolean expression \( ((\sim q) \wedge p) \Rightarrow \) \( ((\sim p) \vee q... |
| 2023-07-03 | Consider the following statement :
\( A \) : Rishi is a judge.
\( B \) : Rishi is honest.
\( C \... |
| 2023-07-03 | If \( p: 4 \) is an even prime number, \( q: 6 \) is a divisor of 12 and \( r \) : the HCF of 4 ... |
| 2023-07-03 | The propositions \( (p \Rightarrow \sim p) \wedge(\sim p \Rightarrow p) \) is a
(a) Tautology an... |
| 2023-07-03 | If \( p \Rightarrow(q \vee r) \) is false, then the truth values of \( p, q, r \) are respective... |
| 2023-07-03 | If \( p \) is any statement, \( t \) is tautology and \( c \) is a contradiction, then which of ... |
| 2023-07-03 | \( \sim((\sim p) \wedge q) \) is equal to
(a) \( p \vee(\sim q) \)
(b) \( p \vee q \)
(c) \( \si... |
| 2023-07-03 | \( (p \wedge \sim q) \wedge(\sim p \wedge q) \) is
(a) A tautology.
(b) A contradiction.
(c) Bot... |
| 2023-07-03 | The contrapositive of \( (p \vee q) \Rightarrow r \) is
(a) \( r \Rightarrow(p \vee q) \)
(b) \(... |
| 2023-07-03 | Let \( p, q \) and \( r \) be any three logical statements. Which of the following is true?
(a) ... |
| 2023-07-03 | The inverse of the statement, If \( x \) is zero then we cannot divide by \( x^{\prime} \) is
(a... |
0