2.3 Probability

Cards (118)

Order the three perspectives on defining probability from most objective to most subjective.
1️⃣ Frequentist Probability
2️⃣ Classical Probability
3️⃣ Subjective Probability
What is the definition of a sample space?
All possible outcomes
Frequentist probability requires a large number of trials. 
True
What does the union of two events represent in probability?
A or B occurring
What is the condition for two events to be considered independent?
One does not affect the other
What is the formula for the complement of an event A?
$P(A') =$ $1 - P(A)$
Match the type of event with its formula:
Independent Events ↔️ $P(A \cap B) =$ $P(A) \times P(B)$
Dependent Events ↔️ $P(A \cap B) =$ $P(A) \times P(B|A)$
Match the probability concept with its definition:
Sample Space ↔️ The set of all possible outcomes
Event ↔️ A subset of the sample space
Probability ↔️ The likelihood of an event occurring
What is the intersection of the events A and B in the example above, where A is rolling an even number and B is rolling a number less than 4 on a 6-sided die?
$P(A \cap B) =$ $\frac{1}{6}$
Venn diagrams are used to visually represent set operations and calculate probabilities.
True
The complement of an event A, denoted as $A'$ , represents the probability of A not occurring. 
True
What is the formula for the intersection of two independent events A and B?
$P(A \cap B) =$ $P(A) \times P(B)$
Match the type of event with its defining characteristic:
Independent Events ↔️ Occurrence of one event does not affect the other
Dependent Events ↔️ Occurrence of one event affects the other
What is the key difference between mutually exclusive and non-mutually exclusive events?
Non-mutually exclusive events can occur simultaneously
Events are mutually exclusive if they cannot occur simultaneously
Non-mutually exclusive events can occur simultaneously
Match the type of event with its property:
Mutually Exclusive ↔️ Events cannot occur simultaneously
Non-Mutually Exclusive ↔️ Events can occur simultaneously
What is the formula for Bayes' Theorem?
P(A|B) = \frac{P(B|A) \times P(A)}{P(B)}</latex>
What is the formula for calculating the number of permutations of n distinct objects taken r at a time?
$P(n, r) =$ $\frac{n!}{(n - r)!}$
Probability is a measure of the likelihood of an event occurring, given a set of possible outcomes
What is the range of values for probability?
0 to 1
Classical probability assumes all outcomes in the sample space are equally likely. 
True
An event is a subset of the sample
What is the sample space when tossing a coin?
{Heads, Tails}
What is an example of a sample space in probability?
{Heads, Tails}
The intersection of two events represents the probability of both events occurring. 
True
The probability of two independent events A and B occurring together is calculated as P(A \cap B) = P(A) \times P(B)</latex> 
True
Independent events are those where the occurrence of one event affects the probability of the other.
False
Probability is expressed as a fraction between 0 and 1, where 0 means impossible and 1 means certain. 
True
Venn diagrams can visually represent set operations to calculate probabilities. 
True
What is the formula for the union of two events using set notation?
$P(A ∪ B) =$ $P(A) +$ $P(B) - P(A ∩ B)$
What does the union of two events $A ∪ B$ represent in probability? 
Probability of A or B
If A is the event of rolling an even number on a 6-sided die, what is P(A)</latex>?
$\frac{1}{2}$
Dependent events occur when the outcome of one event influences the probability of the other event.
True
What is the probability of the intersection of two mutually exclusive events A and B?
$P(A \cap B) =$ $0$
Example of independent and dependent events:
1️⃣ Independent: Tossing a coin and rolling a die
2️⃣ Dependent: Drawing a card from a deck without replacement
The probability of two mutually exclusive events A and B occurring together is $P(A \cap B) =$ $0$  
True
The probability of two non-mutually exclusive events A and B occurring together is $P(A \cap B) \neq 0$  
True
Conditional probability is denoted as $P(A|B)$ , which means the probability of event A given event B. 
True
Match the concept with its use:
Conditional Probability ↔️ Calculate probability given an event
Bayes' Theorem ↔️ Reverse the conditional probability