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The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equation
on the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.
The boundary conditions of the problem are given by
at the boundary points x = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.
The steady-state concentration
at the center x = L/2 of the reservoir (in μmol/m) is ___ . (in integer)
on the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.
The boundary conditions of the problem are given by
at the boundary points x = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentration
at the center x = L/2 of the reservoir (in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer?
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Verified Answer
The concentration s(x, t) of pollutants, in a one-dimensional reservoi...
From figure s(x, f)
at x = 0 ⇒ s(0, t) = s0 = 5
at x = L ⇒ s(L, f) = 0
The steady state solution of diffusion equation is given by
at x = 0 ⇒ s(0, t) = s0 = 5
at x = L ⇒ s(L, f) = 0
The steady state solution of diffusion equation is given by
Most Upvoted Answer
The concentration s(x, t) of pollutants, in a one-dimensional reservoi...
From figure s(x, f)
at x = 0 ⇒ s(0, t) = s0 = 5
at x = L ⇒ s(L, f) = 0
The steady state solution of diffusion equation is given by
at x = 0 ⇒ s(0, t) = s0 = 5
at x = L ⇒ s(L, f) = 0
The steady state solution of diffusion equation is given by
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The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer?
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The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer? for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Question and answers have been prepared according to the Civil Engineering (CE) exam syllabus. Information about The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer? covers all topics & solutions for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer?.
The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer? for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Question and answers have been prepared according to the Civil Engineering (CE) exam syllabus. Information about The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer? covers all topics & solutions for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer?.
Solutions for The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer? in English & in Hindi are available as part of our courses for Civil Engineering (CE).
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Here you can find the meaning of The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer?, a detailed solution for The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer? has been provided alongside types of The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice The concentration s(x, t) of pollutants, in a one-dimensional reservoir at position x and time t satisfies the diffusion equationon the dom ain 0 ≤ x ≤ L, where D is the diffusion coefficie n t of the pollutants. The initial condition s(x, 0) is defined by the step-function shown in the figure.The boundary conditions of the problem are given byat the boundary pointsx = 0 and x = L at all times. Consider D = 0.1 m2/s, s0 = 5 pmol/m and L = 10 m.The steady-state concentrationat the center x = L/2of the reservoir(in μmol/m) is ___ . (in integer)Correct answer is '2.5'. Can you explain this answer? tests, examples and also practice Civil Engineering (CE) tests.
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