Explain irrotational or solenoidal fields. Verify whether given vector field A isirrotational or solenoidal.A = (yz) ax + (zx) av + (xy) az
Question
Explain irrotational or solenoidal fields. Verify whether given vector field A is irrotational or solenoidal.
A = (yz) a_x + (zx) a_v + (xy) a_z
Solution
To explain irrotational or solenoidal fields, we need to understand their definitions.
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Irrotational fields: An irrotational field is a vector field in which the curl of the field is zero. The curl of a vector field measures the rotation or circulation of the field at each point. If the curl is zero everywhere, then the field is irrotational.
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Solenoidal fields: A solenoidal field is a vector field in which the divergence of the field is zero. The divergence of a vector field measures the flow or flux of the field out of a closed surface. If the divergence is zero everywhere, then the field is solenoidal.
Now, let's verify whether the given vector field A = (yz) ax + (zx) av + (xy) az is irrotational or solenoidal.
To check if A is irrotational, we need to calculate its curl:
curl(A) = (d/dy)(xy) - (d/dz)(zx) ax + (d/dz)(yz) - (d/dx)(xy) av + (d/dx)(zx) - (d/dy)(yz) az
Simplifying the above expression, we get:
curl(A) = (x - x) ax + (y - y) av + (z - z) az = 0 ax + 0 av + 0 az = 0
Since the curl of A is zero, we can conclude that A is an irrotational field.
To check if A is solenoidal, we need to calculate its divergence:
div(A) = (d/dx)(yz) + (d/dy)(zx) + (d/dz)(xy)
Simplifying the above expression, we get:
div(A) = 0 + 0 + 0 = 0
Since the divergence of A is zero, we can conclude that A is also a solenoidal field.
In summary, the given vector field A = (yz) ax + (zx) av + (xy) az is both irrotational and solenoidal.
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