A channel cross section, commonly known as gutter, forms at the side of a street next to a curb during rainfall conditions as shown in the figure. The slope along the roadway is 5 = 0.001, and the manning roughness coefficient, n = 0.015. Assuming that uniform flow conditions occur, determine the following: a. The discharge (in liters per second) if the depth of flow y = 15 cm. b. If Q = 100 liters per sec, what is the depth in mm? c. Ilustrate each figure as specified in sub-sets a and b?
A channel cross section, commonly known as gutter, forms at the side of a street next to a curb during rainfall conditions as shown in the figure. The slope along the roadway is 5 = 0.001, and the manning roughness coefficient, n = 0.015. Assuming that uniform flow conditions occur, determine the following: a. The discharge (in liters per second) if the depth of flow y = 15 cm. b. If Q = 100 liters per sec, what is the depth in mm? c. Ilustrate each figure as specified in sub-sets a and b?
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Question
![A channel cross section, commonly known
as gutter, forms at the side of a street
next to a curb during rainfall conditions as
shown in the figure. The slope along the
roadway is S = 0.001, and the manning
roughness coefficient, n = 0.015.
Assuming that uniform flow conditions
occur, determine the following:
a. The discharge (in liters per second) if
the depth of flow y = 15 cm.
b. If Q
100 liters per sec, what is the
depth in mm?
c. Ilustrate each figure as specified in
sub-sets a and b?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd640fc69-2d12-4138-981d-25c94c20c236%2Fd0cc91d3-12ab-44aa-a664-bbf96c45cd46%2Fcuyvf4f_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A channel cross section, commonly known
as gutter, forms at the side of a street
next to a curb during rainfall conditions as
shown in the figure. The slope along the
roadway is S = 0.001, and the manning
roughness coefficient, n = 0.015.
Assuming that uniform flow conditions
occur, determine the following:
a. The discharge (in liters per second) if
the depth of flow y = 15 cm.
b. If Q
100 liters per sec, what is the
depth in mm?
c. Ilustrate each figure as specified in
sub-sets a and b?
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