In a series of ten tosses of two distinguishable dice A and B, the following faces are uppermost (the face for A appearing first in cach bracket): (1,3), (3, 2), (1,6), (4, 2), (2,2), (6,3), (4,6), (5, 1), (3,4), (1,4). Explain how you would use the dice to generate uniformly distributed random numbers in the range 0000 to 9999, and illustrate your explanation by obtaining a four-digit random number from the data. Use this random number to obtain a random observation from the binomial distribution with index 3 and parameter 0-3, and a random observation from the exponential distribution with parameter 1.

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
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Chapter2: Second-order Linear Odes
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In a series of ten tosses of two distinguishable dice A and B, the following faces are uppermost
(the face for A appearing first in each bracket):
(1,3), (3,2), (1,6), (4, 2), (2,2), (6, 3), (4, 6), (5, 1), (3,4), (1,4).
Explain how you would use the dice to generate uniformly distributed random numbers in the
range 0000 to 9999, and illustrate your explanation by obtaining a four-digit random number
from the data. Use this random number to obtain a random observation from the binomial
distribution with index 3 and parameter 0-3, and a random observation from the exponential
distribution with parameter 1.
Transcribed Image Text:In a series of ten tosses of two distinguishable dice A and B, the following faces are uppermost (the face for A appearing first in each bracket): (1,3), (3,2), (1,6), (4, 2), (2,2), (6, 3), (4, 6), (5, 1), (3,4), (1,4). Explain how you would use the dice to generate uniformly distributed random numbers in the range 0000 to 9999, and illustrate your explanation by obtaining a four-digit random number from the data. Use this random number to obtain a random observation from the binomial distribution with index 3 and parameter 0-3, and a random observation from the exponential distribution with parameter 1.
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