rly sta 1 Clearly indicate your selection to answer the following? ( Calculate the km² area required by a stable community of 700,000 to provide 20 years of landfill disposal capacity for MSW generated by this population. The studies showed that the average generation rate is 1.5 kg/person/day. The in-place density of the waste will be 560 kg/m³. The landfill is to take an incomplete quadrilateral pyramid with 300 m upper base length. Also, it will take a symmetric 10 m depth and height under and above earth surface, respectively. The auxiliary facilities (buildings, roads, equipment, maintenance, storage, etc) will account for 25% of the actual site area. (volume of pyramid= [h(a+b²+ab)/3]), and to solve quadratic formula use: x = 2 a) 1.05 km² b) 1.35 km² c) 1.64 km² -b±√b2-4ac 2a d) 0.79 km² e) 1.98 km²
rly sta 1 Clearly indicate your selection to answer the following? ( Calculate the km² area required by a stable community of 700,000 to provide 20 years of landfill disposal capacity for MSW generated by this population. The studies showed that the average generation rate is 1.5 kg/person/day. The in-place density of the waste will be 560 kg/m³. The landfill is to take an incomplete quadrilateral pyramid with 300 m upper base length. Also, it will take a symmetric 10 m depth and height under and above earth surface, respectively. The auxiliary facilities (buildings, roads, equipment, maintenance, storage, etc) will account for 25% of the actual site area. (volume of pyramid= [h(a+b²+ab)/3]), and to solve quadratic formula use: x = 2 a) 1.05 km² b) 1.35 km² c) 1.64 km² -b±√b2-4ac 2a d) 0.79 km² e) 1.98 km²
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Question
![rly sta
1 Clearly indicate your selection to answer the following? (
Calculate the km²
area required by a stable community of 700,000 to provide 20 years of landfill disposal
capacity for MSW generated by this population. The studies showed that the average generation rate is 1.5
kg/person/day. The in-place density of the waste will be 560 kg/m³. The landfill is to take an incomplete
quadrilateral pyramid with 300 m upper base length. Also, it will take a symmetric 10 m depth and height
under and above earth surface, respectively. The auxiliary facilities (buildings, roads, equipment,
maintenance, storage, etc) will account for 25% of the actual site area. (volume of pyramid=
[h(a+b²+ab)/3]), and to solve quadratic formula use: x =
2 a) 1.05 km²
b) 1.35 km²
c) 1.64 km²
-b±√b2-4ac
2a
d) 0.79 km²
e) 1.98 km²](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F099c6360-c664-42fe-985e-553e69c816aa%2F98199b1f-4500-4332-9e6d-2692f13315d9%2Fu8mhjc_processed.jpeg&w=3840&q=75)
Transcribed Image Text:rly sta
1 Clearly indicate your selection to answer the following? (
Calculate the km²
area required by a stable community of 700,000 to provide 20 years of landfill disposal
capacity for MSW generated by this population. The studies showed that the average generation rate is 1.5
kg/person/day. The in-place density of the waste will be 560 kg/m³. The landfill is to take an incomplete
quadrilateral pyramid with 300 m upper base length. Also, it will take a symmetric 10 m depth and height
under and above earth surface, respectively. The auxiliary facilities (buildings, roads, equipment,
maintenance, storage, etc) will account for 25% of the actual site area. (volume of pyramid=
[h(a+b²+ab)/3]), and to solve quadratic formula use: x =
2 a) 1.05 km²
b) 1.35 km²
c) 1.64 km²
-b±√b2-4ac
2a
d) 0.79 km²
e) 1.98 km²
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