What is the steady-state flux of Chloride (CL0) in a river where the average velocity is...

Suppose there is steady-state flow in the field. Two tensiometers were installed at a depth of...

Suppose there is steady-state flow in the field. Two tensiometers were installed at a depth of 60 cm (#1) and 30 cm (#2) from the soil surface. The matric potentials are -50 and -15 cm for Tensiometers #1 and #2, respectively. The K at -32.5 cm of matric potential is 10-13 cm s^-1. If the water flux is 0.02 cm/day, calculate the unsaturated hydraulic conductivity of the soil between 30 and 60 cm in depth.

A printed circuit board manufacturing plant is discharging the chemical 1,1,1-trichloroethane into a river that subsequently...

A printed circuit board manufacturing plant is discharging the chemical 1,1,1-trichloroethane into a river that subsequently flows into a lake, the source of drinking water for a small town. the levels of TCA in this lake currently fail to meet drinking water objectives of 10ppb. by assuming that the lake is a well mixed system, that concentrations are at steady state and the only processes acting on this chemical in the lake are volatization and biodegredation, how high can the...

Suppose there is steady-state flow in the field. Two tensiometers were installed at depth of 60...

Suppose there is steady-state flow in the field. Two tensiometers were installed at depth of 60 cm for (#1) and 30 cm for (#2) from the soil surface. The matric potentials are -50 and -15 cm for Tensiometers #1 and #2, respectively. The K at -32.5 cm of matric potential is 10-13 cm s^-1 . If the water flux is 0.02 cm/day. Calculate the unsaturated hydraulic conductivity of the soil between 30 and 60 cm in depth.

The steady-state temperature distribution inside a solid object is described by the following expression, where x...

The steady-state temperature distribution inside a solid object is described by the following expression, where x is the spatial co-ordinate: T(x) =2x3- 3x2 + x +10 If the thermal conductivity and thickness of the solid are 10 W.m-1.K-1 and 0.8 m respectively, what will be the form of heat flux expression? At what point within the solid does the heat flux reach a maximum (or minimum)?

What are the equation/s used in reaching a specific plasma drug concentration using Steady State pharmacokinetics?

What are the equation/s used in reaching a specific plasma drug concentration using Steady State pharmacokinetics?

1.What is the volumetric flow rate of a solution with density 1.5 kg/m3 flowing at a...

1.What is the volumetric flow rate of a solution with density 1.5 kg/m3 flowing at a velocity of 5 m/s and a mass flow rate of 500 g/min? What is the area of the pipe? If it is circular, what is the radius? 2.Suppose that a river with a molar flow rate of 10000 mol/s meets another, larger river flowing at 500000 m3/s at room temperature. What is the mass flow rate of the river downstream of the intersection if...

accordingly, what is the average velocity of blood in cm/s in the aorta and the capillaries...

accordingly, what is the average velocity of blood in cm/s in the aorta and the capillaries when the cardiac output is 90 ml/s?

A steady, two-dimensional velocity field is given by V with rightwards arrow on top=(u,v)=(3.69-0.7x)i with rightwards...

A steady, two-dimensional velocity field is given by V with rightwards arrow on top=(u,v)=(3.69-0.7x)i with rightwards arrow on top+(2.16+3.06y)j with rightwards arrow on top where the x- and y-coordinates are in meters and the magnitude of velocity is in m/s. The volumetric strain rate in s−1 is A bird is flying in a room with a velocity field of (u, v, w)=0.58x+0.22t–1.22 (m/s). The room is heated by a heat pump so that the temperature distribution at steady state is...

Determine the steady-state response of the m-s system 2y” + 50y = f(t) where f(t) is...

Determine the steady-state response of the m-s system 2y” + 50y = f(t) where f(t) is given by f(t) = 4 for 0<t<2π, 4π<t<6π, 8π<t<10π, … etc f(t) = 0 for 2π<t<4π, …etc

A Si sample with ND=1x10^17 cm^-3 has a steady state excess hole concentration maintained at x=0...

A Si sample with ND=1x10^17 cm^-3 has a steady state excess hole concentration maintained at x=0 of 1x10^16 cm^–3. Assume the electric field is zero, ni=1.5x10^10 cm^–3, μn=800 cm^2 /Vs, μp =200cm^2 /Vs, τ n = τ p =10μs, T=300K. A) Plot the hole concentration as a function of distance x into the material, for x=0 to 3 x Lp B) What is the quasi-fermi level separation at x=50μm? C) Calculate and plot the diffusion current density as a function...