Suppose two hosts A and B, are separated by 10,000 kilometers and are connected by a direct link of R = 1 Mbps. Suppose the propagation speed over the link is 2.5 x 108 meters/sec. a. Calculate the "bandwidth-delay product", R.tprop. b. Consider sending a file of 400,000 bits from host A to B. Suppose the file is sent continuously as one big message. What is the maximum number of bits that will be in the link at any given time? c. Provide an interpretation of the bandwidth-delay product. d. What is the width (in meters) of bit in the link? Is it longer than a football field? e. Derive a general expression for the width of a bit in terms of the propagation speed s, the bandwidth R, and the length of the link d
Suppose two hosts A and B, are separated by 10,000 kilometers and are connected by a direct link of R = 1 Mbps. Suppose the propagation speed over the link is 2.5 x 108 meters/sec. a. Calculate the "bandwidth-delay product", R.tprop. b. Consider sending a file of 400,000 bits from host A to B. Suppose the file is sent continuously as one big message. What is the maximum number of bits that will be in the link at any given time? c. Provide an interpretation of the bandwidth-delay product. d. What is the width (in meters) of bit in the link? Is it longer than a football field? e. Derive a general expression for the width of a bit in terms of the propagation speed s, the bandwidth R, and the length of the link d
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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. Suppose two hosts A and B, are separated by 10,000 kilometers and are connected by a direct
link of R = 1 Mbps. Suppose the propagation speed over the link is 2.5 x 108 meters/sec.
a. Calculate the "bandwidth-delay product", R.tprop.
b. Consider sending a file of 400,000 bits from host A to B. Suppose the file is sent continuously
as one big message. What is the maximum number of bits that will be in the link at any given
time?
c. Provide an interpretation of the bandwidth-delay product.
d. What is the width (in meters) of bit in the link? Is it longer than a football field?
e. Derive a general expression for the width of a bit in terms of the propagation speed s, the
bandwidth R, and the length of the link d
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