beam (by re-radiation) may be calculated :
R=radiation resistance (?)
{ Power re-radiated time average = ((((E {[emf?]}) sub 0) exponent 2)/(2R)) = (((4)(pi exponent 2)((E sub 0) exponent 2)(A exponent 2))/(2R(lambda exponent 2)))
R is a function of A of course - ]
The effective "cross-section" of the loop is = ((Power Re-radiated)/(|[Poynting?] Vector|))
By Moullin, page 26
R= (((320)(pi exponent 4)(A exponent 2))/(lambda exponent 4)) ohms.
The result for power re-radiated (or scattered

beam (by re-radiation) may be calculated :
R=radiation resistance (?)
{ Power re-radiated time average = ((((E {[emf?]}) sub 0) exponent 2)/(2R)) = (((4)(pi exponent 2)((E sub 0) exponent 2)(A exponent 2))/(2R(lambda exponent 2)))
R is a function of A of course - ]
The effective "cross-section" of the loop is = ((Power Re-radiated)/(|[Poynting?] Vector|))
By Moullin, page 26
R= (((320)(pi exponent 4)(A exponent 2))/(lambda exponent 4)) ohms.
The result for power re-radiated (or scattered