Q:
A "handoff" is a term used in wireless communications to describe the process of a cell phone moving
from the coverage area of one base station to that of another. Each base station has multiple
channels (called color codes) that allow it to communicate with the cell phone. A certain engineering
magazine published a study of cell phone handoff behavior. During a sample driving trip that involved
crossing from one base station to another, the different color codes accessed by the cell phone were
monitored and recorded. The table below shows the number of times each color code was accessed for
two identical driving trips, each using a different cell phone model. Suppose you randomly select one
point during the combined driving trips. Complete parts a through c.
a. What is the probability that the cell phone was using color code c?
The probability is
(Round to three decimal places as needed.)
Q:
A "handoff" is a term used in wireless communications to describe the process of a cell phone moving
from the coverage area of one base station to that of another. Each base station has multiple
channels (called color codes) that allow it to communicate with the cell phone. A certain engineering
magazine published a study of cell phone handoff behavior. During a sample driving trip that involved
crossing from one base station to another, the different color codes accessed by the cell phone were
monitored and recorded. The table below shows the number of times each color code was accessed for
two identical driving trips, each using a different cell phone model. Suppose you randomly select one
point during the combined driving trips. Complete parts a through c.
a. What is the probability that the cell phone was using color code c?
The probability is
(Round to three decimal places as needed.)
Q:
A "handoff" is a term used in wireless communications to describe the process of a cell phone moving
from the coverage area of one base station to that of another. Each base station has multiple
channels (called color codes) that allow it to communicate with the cell phone. A certain engineering
magazine published a study of cell phone handoff behavior. During a sample driving trip that involved
crossing from one base station to another, the different color codes accessed by the cell phone were
monitored and recorded. The table below shows the number of times each color code was accessed for
two identical driving trips, each using a different cell phone model. Suppose you randomly select one
point during the combined driving trips. Complete parts a through c.
a. What is the probability that the cell phone was using color code c?
The probability is \( \square \).
(Round to three decimal places as needed.)
Q:
In a sample of 1995 adults from a certain region, 1505 reported that they currently receive cable or
satellite TV service at home, 198 revealed that they have never subscribed to a cable/satellite TV service
at home, and 292 admitted that they are "cord cutters," i.e., they canceled the cable/satellite TV service.
One of the surveyed adults is randomly selected and his or her cable TV subscription status is
determined. Complete parts a through d.
c. What is the probability that the adult has never subscribed to cable/satellite TV service?
The probability is \( \square \). (Round to three decimal places as needed.)
d. What is the probability that the adult has currently or previously subscribed to cable/satellite
TV service?
The probability is \( \square \). (Type an integer or a decimal.)
Q:
An experiment results in one of the sample points \( E_{1}, E_{2}, E_{3}, E_{4} \), or \( E_{5} \). Complete parts a through \( c \).
a. Find \( P\left(E_{3}\right) \) if \( P\left(E_{1}\right)=0.2, P\left(E_{2}\right)=0.2, P\left(E_{4}\right)=0.2 \), and \( P\left(E_{5}\right)=0.2 \).
\( P\left(E_{3}\right)=\square \) (Type an exact answer in simplified form.)
b. Find \( P\left(E_{3}\right) \) if \( P\left(E_{1}\right)=P\left(E_{3}\right), P\left(E_{2}\right)=0.2, P\left(E_{4}\right)=0.2 \), and \( P\left(E_{5}\right)=0.1 \).
\( P\left(E_{3}\right)=\square( \) Type an exact answer in simplified form.)
c. Find \( P\left(E_{3}\right) \) if \( P\left(E_{1}\right)=P\left(E_{2}\right)=P\left(E_{4}\right)=P\left(E_{5}\right)=0.2 \).
Q:
A construction company employs three sales engineers. Engineers 1,2 , and 3 estimate the costs of
\( 15 \%, 25 \% \), and \( 60 \% \), respectively, of all jobs bid on by the company. For \( i=1,2,3 \), define \( E_{1} \) to be the
event that a job is estimated by engineer \( i \). The following probabilities describe the rates at which the
engineers make serious errors in estimating costs: \( P\left(\right. \) error \( \left.\mid E_{1}\right)=0.04, P\left(e r r o r \mid E_{2}\right)=0.03 \), and
\( P\left(\right. \) error \( \left.\mid E_{3}\right)=0.02 \). Complete parts a through \( d \).
c. If a particular bid results in a serious error in estimating job cost, what is the probability that the error
was made by engineer 3 ?
\( P\left(E_{3} \mid e r r o r\right)=\square \) (Round to the nearest thousandth as needed.)
d. Based on the probabilities, given in parts a-c which engineer is most likely responsible for making the
serious error?
Q:
A construction company employs three sales engineers. Engineers 1,2 , and 3 estimate the costs of
\( 15 \%, 25 \% \), and \( 60 \% \), respectively, of all jobs bid on by the company. For \( i=1,2,3 \), define \( E_{i} \) to be the
event that a job is estimated by engineer \( i \). The following probabilities describe the rates at which the
engineers make serious errors in estimating costs: \( P\left(\right. \) error \( \left.\mid E_{1}\right)=0.04, P\left(e r r o r \mid E_{2}\right)=0.03 \), and
\( P\left(\right. \) error \( \left.\mid E_{3}\right)=0.02 \). Complete parts a through \( d \).
a. If a particular bid results in a serious error in estimating job cost, what is the probability that the error
was made by engineer 1 ?
\( P\left(E_{1} \mid\right. \) error) \( =\square \) (Round to the nearest thousandth as needed.)
b. If a particular bid results in a serious error in estimating job cost, what is the probability that the error
was made by engineer 2 ?
Q:
QUESTION 7
7.1 An Ice-Cream fridge has 13 Chocolate flavoured ice-creams, 12 Cappuccino
flavoured ice-creams and \( x \) number of Orange flavoured ice-creams.
7.1.1 If there is a \( 50 \% \) of choosing an orange flavoured ice-cream, how many orange ice
-creams are in the fridge?
7.1.2 Determine the probability of choosing two of the same flavoured ice-cream one
after each other if the ice cream is not replaced. Give your answer rounded to 2
decimal places.
Q:
For two events, \( A \) and \( B, P(A)=0.5, P(B)=0.4 \), and \( P(A \mid B)=0.75 \).
a. Find \( P(A \cap B) \). b. Find \( P(B \mid A) \).
a. \( P(A \cap B)=\square \) (Simplify your answer.)
b. \( P(B \mid A)=\square \) (Simplify your answer.)
Q:
In a certain region, the competition for social networking is between Network A and Network B. According
to a survey, \( 13 \% \) of the region's citizens visit Network A, \( 12 \% \) visit Network B, and \( 1 \% \) visit both Network
A and Network B. Complete parts a through c.
b. Find the probability that a citizen from the region visits either Network A or Network B.
The probability is \( \square \).
(Simplify your answer.)
c. Use your answer to part b to find the probability that a citizen from the region does not visit either
social networking site.
The probability is \( \square \).
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