Consider a current carrying wire in the shape of a circle. As the current progresses along the
wire, the direction of j changes in an exact manner, while the current remain unaffected. The
agent that is essentially responsible for is
Answers
Step-by-step explanation:
.Current per unit area (taken normal to the current),
Current per unit area (taken normal to the current), A
Current per unit area (taken normal to the current), AI
Current per unit area (taken normal to the current), AI
Current per unit area (taken normal to the current), AI is called current density and is denoted by
Current per unit area (taken normal to the current), AI is called current density and is denoted by J
Current per unit area (taken normal to the current), AI is called current density and is denoted by J
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2 . The current density is also directed along E and which is also a vector quantity and the relationship is given by,
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2 . The current density is also directed along E and which is also a vector quantity and the relationship is given by, J
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2 . The current density is also directed along E and which is also a vector quantity and the relationship is given by, J =σ
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2 . The current density is also directed along E and which is also a vector quantity and the relationship is given by, J =σ E
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2 . The current density is also directed along E and which is also a vector quantity and the relationship is given by, J =σ E =
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2 . The current density is also directed along E and which is also a vector quantity and the relationship is given by, J =σ E = ρ
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2 . The current density is also directed along E and which is also a vector quantity and the relationship is given by, J =σ E = ρE
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2 . The current density is also directed along E and which is also a vector quantity and the relationship is given by, J =σ E = ρE
Current per unit area (taken normal to the current), AI is called current density and is denoted by J The S.I unit of the current density are J/m 2 . The current density is also directed along E and which is also a vector quantity and the relationship is given by, J =σ E = ρE
electric field produced by charges accumulated on the surface of wire.