(d) Let X, and X, be the number of lights at which a stop is required when driving to and from work on a second day assumed independent of the first day. With T, = the sum of all four X's, what no are the values of E(T) and V(T)? E(T) = VIT) = (e) Referring back to (d), what are the values of P(T, = 8) and P(T, 2 7) [Hint: Don't even think of listing all possible outcomes!] P(T, = 8) = P(T, 2 7) =
(d) Let X, and X, be the number of lights at which a stop is required when driving to and from work on a second day assumed independent of the first day. With T, = the sum of all four X's, what no are the values of E(T) and V(T)? E(T) = VIT) = (e) Referring back to (d), what are the values of P(T, = 8) and P(T, 2 7) [Hint: Don't even think of listing all possible outcomes!] P(T, = 8) = P(T, 2 7) =
A First Course in Probability (10th Edition)
10th Edition
ISBN:9780134753119
Author:Sheldon Ross
Publisher:Sheldon Ross
Chapter1: Combinatorial Analysis
Section: Chapter Questions
Problem 1.1P: a. How many different 7-place license plates are possible if the first 2 places are for letters and...
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Only parts D and E please.
![There are two traffic lights on a commuter's route to and from work. Let X, be the number of lights at which the commuter must stop on his way to work, and X, be the number of lights at which he must
stop when returning from work. Suppose that these two variables are independent, each with the pmf given in the accompanying table (so X,, X, is a random sample of size n = 2).
P(x,) 0.1 o.3 0.6
u = 1.5, o? = 0.45
(a) Determine the pmf of T, = X, + X2.
3
4.
P(t)
(b) Calculate T:
u, =
How does it relate to u, the population mean?
(c) Calculate o, 2.
=
How does it relate to o, the population variance?
=
(d) Let X, and X, be the number of lights at which a stop is required when driving to and from work on a second day assumed independent of the first day. With T, = the sum of all four X,'s, what now
are the values of E(T) and V(T)?
E(T) =
VIT) =
(e) Referring back to (d), what are the values of P(T, = 8) and P(T, 2 7) [Hint: Don't even think of listing all possible outcomes!]
P(T, = 8) =
P(T, 2 7) =](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa4e23d50-b6e1-4880-9ad9-a789799b751b%2Fe3d9ec19-45b6-420d-9730-e62d4f452823%2Fyqwuh6i_processed.png&w=3840&q=75)
Transcribed Image Text:There are two traffic lights on a commuter's route to and from work. Let X, be the number of lights at which the commuter must stop on his way to work, and X, be the number of lights at which he must
stop when returning from work. Suppose that these two variables are independent, each with the pmf given in the accompanying table (so X,, X, is a random sample of size n = 2).
P(x,) 0.1 o.3 0.6
u = 1.5, o? = 0.45
(a) Determine the pmf of T, = X, + X2.
3
4.
P(t)
(b) Calculate T:
u, =
How does it relate to u, the population mean?
(c) Calculate o, 2.
=
How does it relate to o, the population variance?
=
(d) Let X, and X, be the number of lights at which a stop is required when driving to and from work on a second day assumed independent of the first day. With T, = the sum of all four X,'s, what now
are the values of E(T) and V(T)?
E(T) =
VIT) =
(e) Referring back to (d), what are the values of P(T, = 8) and P(T, 2 7) [Hint: Don't even think of listing all possible outcomes!]
P(T, = 8) =
P(T, 2 7) =
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