Question

the line integral of magnetic induction B BDL for a closed path is equal to the net current I passing through the area bounded by that this is known as​

Answer 1

Answer ⇒ Ampere Circuital Law.

Explanation ⇒  There are little typing errors in the question, but Although I got that.

The statement given in the question is of the ampere circuital law.

According to the ampere circuital law,

''The Line integral of the magnetic field is μ₀ times the total current passing through the closed surface area.''

Now, Line Integral of the Magnetic field is rep[resented as,$\int{B} \, dl$

Ampere circuital law helps us to calculate the magnetic filed for many loops of different shape and size and is widely used in branch of Electromagnetism.

Hope it helps.

Answer 2

Answer ⇒ Ampere Circuital Law.

Explanation ⇒  There are little typing errors in the question, but Although I got that.

The statement given in the question is of the ampere circuital law.

According to the ampere circuital law,

''The Line integral of the magnetic field is μ₀ times the total current passing through the closed surface area.''

Now, Line Integral of the Magnetic field is rep[resented as,

Ampere circuital law helps us to calculate the magnetic filed for many loops of different shape and size and is widely used in branch of Electromagnetism.