Derive an expression for rhe force acting on the current carrying conductor placed in a uniform magnetic field name rhe rule which give the direction of the force write the condition for qhich this force will have maximum and minimum value
Answers
Let us consider a current carrying conductor of length L placed in a magnetic field B which is directed into the page .It is represented by X .
Let the field be confined to Length L.So only the part of wire of length L is inside the Magnetic field.
magnetic force on a single charge is given by:
F=qvB
let total charge inside the Magnetic field be Q so magnetic force on current carrying conductor is given by
F=QvB-----------1
the time taken by the charge q to cross the filed is
t=L/v
v=L/t-------------2
substituting this in equation 1 we get
F=Q(L/t)B
F=(Q/t) LB
but Q/T is electric current I
So F=ILB
This equation hold good when direction of electric current is perpendicular of magnetic field.
if at an angle then
F=ILBsinθ
We can use right hand rule to find out the direction of force on the current carrying wire. or Fleming's Left hand rule can also be used.
F will be maximum when I and B are perpendicular
F will be minimum when θ=0°
Answer has been written in the below sheet.....
