Consider a fluid between two parallel plates. The fluid is at rest. At t=0, the bottom...

A low-speed, incompressible fluid is contained between two infinitely long and wide parallel plates.  The top plate...

A low-speed, incompressible fluid is contained between two infinitely long and wide parallel plates.  The top plate is being pulled at a velocity V2 and the bottom plate is being pulled at a velocity of V1.             a) What is the velocity profile u(y) as a function of y, h, V2 and V1?   Show your work.             b) What is the vorticity for this flow? Show your work.

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....

Consider two grounded conducting plates, located parallel to the x-y plane at z = 0 and...

Consider two grounded conducting plates, located parallel to the x-y plane at z = 0 and z =a. A rectangular tube is created by placing long strips of metal in between the plates, parallel to the x-z plane at y = -b and y = b. The plate at y = b is held at a constant negative potential: -V0, while the plate at y = -b is held at a constant positive potential, V0. Write down a general solution...

A speedboat starts from rest at t = 0 s, and speeds up with a constant...

A speedboat starts from rest at t = 0 s, and speeds up with a constant acceleration of 4.01 m/s2 for 6.00 s. Then it continues with a uniform speed for another 6.00 s. Finally, it slows down with a constant acceleration of −3.41 m/s2 . In your written work, include the velocity vs. time and acceleration vs. time graphs for this motion. The numerical values on the graphs are required. (a) How long does it take for the speedboat...

1.) Consider an RC circuit, with values of R=1600Ω,V=6V, and C=3600μF . Assume that the circuit...

1.) Consider an RC circuit, with values of R=1600Ω,V=6V, and C=3600μF . Assume that the circuit starts with the capacitor fully discharged and begins charging at t=0. What is the maximum current? After what amount of time is the current at a fraction of 0.9 if its maximum value? 2.) Consider an RC circuit, with values of R=4100Ω,V=6V, and C=5000μF Assume that the circuit starts with the capacitor fully discharged and begins charging at t=0. What is the maximum current?...

Question: A block of mass m is at rest at the origin at t=0. It is...

Question: A block of mass m is at rest at the origin at t=0. It is pushed with constant force F0 from x = 0 to x = L across a horizontal surface whose coefficient of kinetic friction is ?k = ?0 ( 1 ? x / L ). That is, the coefficient of friction decreases from ?0 at x = 0 to zero at x = L. Part A: We would like to know the velocity of the block...

3. Consider the following two lines: x = c + t, y = 1 + t,...

3. Consider the following two lines: x = c + t, y = 1 + t, z = 5 + t and x = t, y = 1 - t, z = 3 + t. Is there a value c that makes the two lines intersect? If so, find it. Otherwise, give a reason. 4. A particle starts at the origin and moves along the shortest path to the line determined by the two points P =(1,2,3) and Q =(3,-2,-1)....

In addition to the buoyant force, an object moving in a liquid experiences a linear drag...

In addition to the buoyant force, an object moving in a liquid experiences a linear drag force Fdrag = (bv, direction opposite the motion), where b is a constant. For a sphere of radius R, the drag constant can be shown to be b = 6πηR, where η is the viscosity of the liquid. Consider a sphere of radius R and density ρ that is released from rest at the surface of a liquid with density ρf. a. Find an...

1. First consider a mass on an inclined slope of angle θ, and assume the motion...

1. First consider a mass on an inclined slope of angle θ, and assume the motion is frictionless. Sketch this arrangement: 2. As the mass travels down the slope it travels a distance x parallel to the slope. The change in height of the mass is therefore xsinθ. By conserving energy, equate the change of gravitational potential energy, mgh = mgxsinθ, to the kinetic energy for the mass as it goes down the slope. Then rearrange this to find an...

Question 9 (1 point) An airplane starts from rest (vo = 0) and accelerates down a...

Question 9 (1 point) An airplane starts from rest (vo = 0) and accelerates down a runway at 2 m/s2 for 23 s until it takes off. Determine the distance traveled before takeoff. Your Answer: Question 9 options: Answer Question 10 (1 point) An airplane starts from rest (vo = 0) and accelerates down a runway at 4 m/s2 and covers 245 m before it takes off. Determine the time it takes. Your Answer: Question 10 options: Answer Question 11...