a) Find the resonant frequency for cylindrical cavity with radius a = 2cm and height b=5cm,...

determine the resonant of the dominant cavity mode for an air-filled rectangular waveguide cavity with dimension...

determine the resonant of the dominant cavity mode for an air-filled rectangular waveguide cavity with dimension of a=4cm, b=2cm and c=7cm

A laser can be made by placing a light source in an optical resonant cavity which...

A laser can be made by placing a light source in an optical resonant cavity which has two highly reflective flat mirrors at its ends. Light produced by the source will reflect back and forth from the end mirrors and so produce standing waves. Assume that the mirrors at the ends of the cavity are nodes of the standing wave pattern. (a) What are the frequencies of the normal modes of the cavity in terms of the distance L between...

1) A cylindrical tank with a radius of 10 feet and a height of 20 feet...

1) A cylindrical tank with a radius of 10 feet and a height of 20 feet is leaking. An observer notices that the height of the tank is goinf down at a constant rate of 1 foot per second. At what rate is the water leaking our of the rank (measured in volume) when the height of the water is 5 feet? The colume of a cylinder of height h and radius is V=pi*r2*h. a. -314 b. - 1,245 c....

The human outer ear contains a more or less cylindrical cavity called the auditory canal that...

The human outer ear contains a more or less cylindrical cavity called the auditory canal that behaves like a resonant tube to aid in the hearing process. One end terminates at the eardrum (tympanic membrane), while the other opens to the outside. (See (Figure 1).) Typically, this canal is approximately 2.5 cm long. The speed of sound in air is 344 m/s. A At what frequencies would it resonate in its first two harmonics? Express your answers in kilohertz separated...

1. A cylindrical region of space of radius R contains a uniform magnetic field B with...

1. A cylindrical region of space of radius R contains a uniform magnetic field B with direction into the page. If the magnitude B inside the cylinder changes in time and outside the cylinder it is zero, describe the induced electric field (magnitude and direction) for points inside the cylinder (r < R). Find the magnitude and direction of the induced electric field at r = 5.00 cm if the magnetic field changes at a constant rate from 0.500T to...

A cylindrical tube that is 2.50 mm long and has a radius of 150 mmmm is...

A cylindrical tube that is 2.50 mm long and has a radius of 150 mmmm is filled with water. It is oriented with its long central axis vertical, and it is open to the air at the upper end. A hole 80.0 mmmm in radius is drilled in the bottom, and the water is allowed to drain out. a) When the water level is half the height of the tube what is the speed of the water exiting though the...

A cylindrical tank of radius R is filled with a liquid of density  to a...

A cylindrical tank of radius R is filled with a liquid of density  to a height H above its bottom. It has a small hole of radius r in the mantle at distance h above its bottom. Air pressure equals p0. You are to use Bernoulli’s equation to compute the flow velocity of the fluid as it exits the hole. a) Prepare a diagram. Indicate the location of the two points that you choose when applying Bernoulli’s equation. What...

A cylindrical wire of radius R=2.3cm carries a current of I=5A uniform distributed across its cross-section....

A cylindrical wire of radius R=2.3cm carries a current of I=5A uniform distributed across its cross-section. Find an expression (i.e. a formula) for the magnitude of the magnetic field created by this current as a function of radius both inside and outside the wire. Use this expression to determine the magnitude of the magnetic field at the surface of the wire (i.e. at r=R). Denote this magnitude by Bo. Is there a radius bigger than R where the magnitude of...

An infiinitely long solid conducting cylindrical shell of radius a = 2.2 cm and negligible thickness...

An infiinitely long solid conducting cylindrical shell of radius a = 2.2 cm and negligible thickness is positioned with its symmetry axis along the z-axis as shown. The shell is charged, having a linear charge density λinner = -0.34 μC/m. Concentric with the shell is another cylindrical conducting shell of inner radius b = 13.8 cm, and outer radius c = 15.8 cm. This conducting shell has a linear charge density λ outer = 0.34μC/m. 1) What is Ex(P), the...

A cylindrical capacitor of length 1 cm, inner radius 0.010 cm, and outer radius 0.015 cm...

A cylindrical capacitor of length 1 cm, inner radius 0.010 cm, and outer radius 0.015 cm is filled with water, which has dielectric constant K = 80.10 at 20◦C. Assume the capacitor has been connected to an ideal 6V battery for a long enough time for the system to have reached equilibrium. a). Find the surface charge densities in the water on both the inner and outer surface. What is the field ~ D as a function of r inside...