Calculate the capacitance per meter for the cable

Reference no: EM13709211

Question: A coaxial cable used in a transmission line has an inner radius of 0.12 mm and an outer radius of 0.84 mm.

Part A: Calculate the capacitance per meter for the cable.

Please show all steps to determine the capacitance per meter for the cable and assume that the space between the conductors is filled with a material with a dielectric constant of 2.7.

Reference no: EM13709211

Questions Cloud

Air enters a control volume at a pressure : Air enters a control volume at a pressure of 19000lbf/ft^2, a velocity of 80ft/s and a temp of 440 degrees F. the area through which the air flows is .05 ft^2. The air behaves as an ideal gas. Determine the mass flow rate in lb/s.

What is the final energy of the system in btu : A closed system undergoes a process in which there is a heat transfer of 110 btu into the system. The work done on the system is 70 btu. Initial internal energy of the system is 1300 btu, what is the final energy of the system in btu.

Determine the exit temperature in degrees : Steam at 3MPa and 400C enters an adiabatic nozzle steadily with a velocity of 40m/s and leaves at 2.5MPa and 300m/s. Determine the exit temperature in degrees C. the ratio of the inlet to exit area

Concept of the product life cycle : What information have you learned, how will you use your new knowledge and evaluate your work so far. What assignments and/or activities did you excel in?

Calculate the capacitance per meter for the cable : A coaxial cable used in a transmission line has an inner radius of 0.12 mm and an outer radius of 0.84 mm. Calculate the capacitance per meter for the cable

A gasoline engine is modeled as an otto cycle : A gasoline engine is modeled as an Otto cycle. It has at temperature and pressure at the beginning of compression of 10°C and 90 kPa. The compression ratio is 7 and the specific energy added to the air during the heat addition process is 1432.46 kJ/k..

How far are you from where you originally started : You walk 33m to the north, then 60 degrees to your right and walk another 45m. How far are you from where you originally started

Determine the power input required for a mass flow rate : Helium is to be compressed from 120kPa and 315K to 700kPa and 450K. A heat loss of 20kJ/kg occurs during the compression process. Neglecting kinetic energy changes, determine the power input required for a mass flow rate of 78kg/min. Round to nearest..

Determine the mass flow rate required for a power output : Steam enters an adiabatic turbine at 10MPa and 500C and leaves at 10kPa with a quality of 61 percent. Neglecting the changes in kinetic and potential energies, determine the mass flow rate required for a power output of 7.04MW.

User Account

All Pages