the Navier-Stokes equations for the Couette flow (flow between two infinite plates one of which is...

Write the Navier-Stokes (N-S) equations (viscous - incompressible flow) in longer form in x,y,z (Cartesian) coordinates...

Write the Navier-Stokes (N-S) equations (viscous - incompressible flow) in longer form in x,y,z (Cartesian) coordinates as mentioned in the class today

Many patients have problems with urination.   a. How could one quantify the flow rate through a...

Many patients have problems with urination.   a. How could one quantify the flow rate through a ureter? b. Define a lumped parameter model of such a flow. c. How would you write the relevant simplified Navier-Stokes equations to describe this flow? Justify your assumptions. d. If the urinary flow rate were 20 ml/s, calculate the velocity, shear rate, and shear stress in the urethra of diameter 2 mm? e. Would measurements or CFD yield more accurate quantities?

Consider two very large conducting plates of surface A separated by a distance d (you can...

Consider two very large conducting plates of surface A separated by a distance d (you can consider them as infinite planes). (a) If the top one carries a charge +Q and the bottom one a charge –Q, what is the electric field everywhere in space (i.e. between the planes, and outside)? (b) What is the potential difference between the plates? (c) Redo (a) and (b) if both plates carry the same charge +Q. (Q=10 C, A=10cmX10cm, d=1cm). Please explain each...

Consider two parallel plates (as in a parallel plate capacitor), with plates which are very much...

Consider two parallel plates (as in a parallel plate capacitor), with plates which are very much wider than their separation, with an electric potential across the plates. Sketch the equipotential lines and field lines between the plates. If, the distance between the plates is 0.10 m, the potential of one plate is 0 V and the potential of the second plate is 10 V, what is the potential at a point 0.02 m from the second plate?

Consider two infinite plates, both parallel to the xy plane of a coordinate system. The top...

Consider two infinite plates, both parallel to the xy plane of a coordinate system. The top plate is at the height z = +5cm and carries a uniform charge distribution of ?= +3nC/m2. The bottom plate is at height z = - 5cm and carries a uniform charge distribution of ?= -3nC/m2. The space between the plates is filled with air. Between the plates runs a long wire along the y-axis (at z=0 and x=0), carrying a current of 10A....

If an electron is confined to one-dimensional motion between two infinite potential walls which are separated...

If an electron is confined to one-dimensional motion between two infinite potential walls which are separated by a distance equal to Bohr radius, calculate energies of the three lowest states of motion.Calculate numerical value of ground state energy and compare it with hydrogen atom ground state energy.

If an electron is confined to one-dimensional motion between two infinite potential walls which are separated...

If an electron is confined to one-dimensional motion between two infinite potential walls which are separated by a distance equal to the Bohr radius, calculate the energies of the three lowest states of motion. Calculate numerical value of ground state energy and compare it with hydrogen atom ground state energy.

True or false: Consider two parallel plates, one with a uniform positive charge and the other...

True or false: Consider two parallel plates, one with a uniform positive charge and the other with a uniform negative charge. The plates are initially very far apart. The potential energy of the plates increases when you bring the plates close together.

An electron cathode ray tube is accelerated when it passes between two parallel plates separated by...

An electron cathode ray tube is accelerated when it passes between two parallel plates separated by 5.0 cm. If the electron is initially moving with speed vi = 1000 m/s to the right and it has a speed of vf = 5500 m/s after leaving the acceleration region, what is the potential difference deltaV between the plates and which plate, the right or the left, is at the highest potential? Justify your answer.

Consider a spinless particle of mass m, which is moving in a one-dimensional infinite potential well...

Consider a spinless particle of mass m, which is moving in a one-dimensional infinite potential well with walls at x = 0 and x = a. If and are given in Heisenberg picture, how can we find them in Schrodinger and interaction picture?