
Let B0 is the magnetic field at origin. Then,
dxdB=−10−210−3
⇒∫B0BdB=−∫0x10−1dx
⇒B−B0=−10−1x
⇒B=(B0−10x)
Motional emf in AB=0
Motional emf in CD=0
Motional emf in AD=ϵ1=B0ℓv
Magnetic field on rod BC
=(B0−10(−12×10−2))
Motional emf in BC=ϵ2=(B0+1012×10−2)ℓ×v
Net equivalent emf ϵeq=ϵ2−ϵ1=300×10−7V
For time variation
(ϵeq)′=AdtdB=60×10−7V
(ϵeq)net =ϵeq+(ϵeq)′=360×10−7V
Power r=R(ϵeq )net 2=216×10−9W