A sinusoidally oscillating current I() with an amplitude of 9.55 A and a frequency of 775...
A sinusoidally oscillating current (0) with an amplitude of 9.55 A and a frequency of 775 cycles per second is carried by a long, straight wire. A rectangular loop of copper wire with dimensions b-72.2 cm by c-32.5 cm is located - 80.2 cm from the straight wire, and is coplanar with it. Calculate the average power Pov dissipated by the loop if its resistance is 84.312
A current with sinusoidal time-dependence, whose peak value is
8.55 A and frequency is 671 cycles per second, passes through a
long straight wire. A rectangular 54.2 cm × 24.4 cm loop of copper
wire is located 60.2 cm from the wire and is coplanar with it.
Calculate the average power dissipated by the loop, if its
resistance is 54.3 Ω.
A current with sinusoidal time-dependence, whose peak value is 8.55 A and frequency is 671 cycles per second, passes...
A current with sinusoidal time-dependence,
whose peak value is 4.55 A and frequency is 671 cycles per second,
passes through a long straight wire. A rectangular 45.2 cm Ý 20.3
cm loop of copper wire is located 50.2 cm from the wire and is
coplanar with it. Calculate the average power dissipated by the
loop, if its resistance is 84.3 Ω.
A current with sinusoidal time-dependence, whose peak value is 9.55 A and frequency is 359 cycles per second, passes through a long straight wire. A rectangular 18.2 cm
4. A 50-cm long dipole is excited by a sinusoidally varying current with an amplitude lo = 5 A. Determine the time average power radiated by the dipole if the oscillating frequency (a) 1 MHz, (b) 300 MHz