347. If a function is said to be harmonic, then
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c Explanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to Div(Grad V), which is zero for harmonic fields.
c
See lessExplanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for
harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to
Div(Grad V), which is zero for harmonic fields.
C Explanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to Div(Grad V), which is zero for harmonic fields.
C
See lessExplanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to Div(Grad V), which is zero for harmonic fields.
C Explanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to Div(Grad V), which is zero for harmonic fields
C
See lessExplanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for
harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to
Div(Grad V), which is zero for harmonic fields
Answer: c Explanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to Div(Grad V), which is zero for harmonic fields.
Answer: c
See lessExplanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for
harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to
Div(Grad V), which is zero for harmonic fields.
c) Explanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to Div(Grad V), which is zero for harmonic fields.
c)
See lessExplanation: Though option Curl(Grad V) = 0 & Div(Curl V) = 0 are also correct, for
harmonic fields, the Laplacian of electric potential is zero. Now, Laplacian refers to Div(Grad V), which is zero for harmonic fields.