Q 1218010, 0, 00 (-12-23) 1 - (* —- (1 - V₁ × *) *| (H-V₂ 20 -exp 27 exp Oy 20 C(x, y, z)= C(x, 0, 0) = w(x, 0, 0) = Q 2 mu Oy Oz -exp QV₂ επισ, σε - exp (H–V¸ × ²)²] 202² ×11) ²* H-V₁ × 20²2/2 Wind velocity = 4 m/s, settling velocity = 0.02 m/s, stack height = 80 m, PM emission rate = 25 g/s, oy = 100 m, o₂ = 55 m. The deposition rate at 1000 m downwind is g/m²-s. (Note: Report in scientific notation if needed).
Q 1218010, 0, 00 (-12-23) 1 - (* —- (1 - V₁ × *) *| (H-V₂ 20 -exp 27 exp Oy 20 C(x, y, z)= C(x, 0, 0) = w(x, 0, 0) = Q 2 mu Oy Oz -exp QV₂ επισ, σε - exp (H–V¸ × ²)²] 202² ×11) ²* H-V₁ × 20²2/2 Wind velocity = 4 m/s, settling velocity = 0.02 m/s, stack height = 80 m, PM emission rate = 25 g/s, oy = 100 m, o₂ = 55 m. The deposition rate at 1000 m downwind is g/m²-s. (Note: Report in scientific notation if needed).
Calculus For The Life Sciences
2nd Edition
ISBN:9780321964038
Author:GREENWELL, Raymond N., RITCHEY, Nathan P., Lial, Margaret L.
Publisher:GREENWELL, Raymond N., RITCHEY, Nathan P., Lial, Margaret L.
Chapter11: Differential Equations
Section11.1: Solutions Of Elementary And Separable Differential Equations
Problem 5E
Related questions
Question
![C(x, y, z) =
C(x, 0, 0) =
w(x, 0, 0) =
Q
2 mu Oy Oz
Q
-exp
• (-21723) 0²
2 Mu Oy Oz
Q Vt
2 muo₂ o₂
·(H-V₁₂ ×
2- |- (1-1/2 x + ²)
exp
20²/2
exp
-exp
- (z − (H - V₁ ×
202/2
(H-V₁ × 1²
20
Wind velocity = 4 m/s, settling velocity = 0.02 m/s, stack height = 80 m, PM emission rate = 25 g/s, oy = 100 m, oz = 55 m. The deposition rate at 1000 m downwind is
g/m²-s. (Note: Report in scientific notation if needed).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F508a154f-aa32-43e5-bd17-06691b34453a%2F7ac19930-2dcc-4755-851a-c1a3b82a18b9%2Ftsph486_processed.png&w=3840&q=75)
Transcribed Image Text:C(x, y, z) =
C(x, 0, 0) =
w(x, 0, 0) =
Q
2 mu Oy Oz
Q
-exp
• (-21723) 0²
2 Mu Oy Oz
Q Vt
2 muo₂ o₂
·(H-V₁₂ ×
2- |- (1-1/2 x + ²)
exp
20²/2
exp
-exp
- (z − (H - V₁ ×
202/2
(H-V₁ × 1²
20
Wind velocity = 4 m/s, settling velocity = 0.02 m/s, stack height = 80 m, PM emission rate = 25 g/s, oy = 100 m, oz = 55 m. The deposition rate at 1000 m downwind is
g/m²-s. (Note: Report in scientific notation if needed).
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