Shown in the figure is an R-L circuit. J...

Shown in the figure is an `R-L` circuit. Just after the key `(K)` is closed

the current in the circuit is zero

potential drop across the resistor is zero

emf developed across the inductor equals the emf of the battery

no heat is dissipated in the circuit

Text Solution

Verified by Experts

If the equilibrium current in the circuit is `i_(0)`, current at any time in transient state is given as
`i=i_(0)(1-e^(-(t)/(tau)))` where `tau=(L)/(R )`
Putting `t=0`, `i=0`
`rArr ` The voltage drop across the inductor is `E'` that oppose the applied emf `E`
`rArr E'=E` numerically.
Since the circuit current is zero, the heat loss that is proportional to `i_(0)^(2)R` will be zero

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