A lossless coaxial cable has a capacitance of ` 7 xx 10^(-11)F` and inductance of 0.39 `muH`. The characteristic impedance of the cable is

Calculate capacitance of a co-axial cable when its inductance is 0.4muH and the characteristic impedance is 160 ohm

The characteristic impedance of a coaxial cable is of the order of

A two wire transmission line has a capacitance of 20 Pf//m and a characteristic impedance of 50 Omega What is the inductance per metre of this cable ?

A two wire transmission line has a capacitance of 20 Pf//m and a characteristic impedance of 50 Omega Determine the impedance of an infinitely long section of such cable.

The plate area of a parallel-plate capacitors is 10cm^(2) and its capacitance is 2pF . The separation between the plates of the capacitors is close to (in mm). (permittivity of vacuum, epsi_(0)=(80)/(9)xx10^(-12)m^(-3)kg^(-1)s^(4)A^(2),1pF=10^(-12)F )

A coiaxial cable consists of two thin coaxial cylinders electrically connected at one end, an inner cylindrical conducting tube of radius a carrying a steady current l which is screened by an outer cylindrical conducting sheath of radius b which provides a return path. There is no dielectric medium present. Use Ampere's theorem to derive the total magnetic energy stored in the space between the conductors, show that the inductance of a length l of the cable is L=(mu_(0)l)/(2pi)ln((b)/(a)) In this cable (a = 5 mm, b = 10 mm, l = 1000 m) is now employed in a (resistanceless) LC circuit containing a capacitance C = 1000 muF , determine the period of oscillations (neglect the capacitance of the cable itself).

A 750 Hz, 20 V source is connected to as resistance of 100 Omega an inductance of 0.1803 H and a capacitance of 10 muF all in sereis.Calculate the time in which the resistance (thermalcapacity 2J//.^(@)C ) wil get heated by 10^(@)C .

A 750 Hz, 20 V source is connected to as resistance of 100 Omega an inductance of 0.1803 H and a capacitance of 10 muF all in sereis.Calculate the time in which the resistance (thermalcapacity 2J//.^(@)C ) wil get heated by 10^(@)C .

A capacitor of capacitance 250 pF is connected in parallel with a choke coil having inductance of 1.6 xx 10^(-2) H and resistance 20 Omega . Calculate (a) the resonance frequency and (b) the circuit impedance at resonance.

A parallel plate capacitor has capacitance of 1.0 F . If the plates are 1.0 mm apart, what is the area of the plates?