Qstnid -Iv-22-a Battery Of Emf 100 V And A Resistor Of Resistance 10 Kω Are Joined In Series. This System Is Used As A Source To Supply Current To An External Resistance R. If R Is Not Greater Than 100 Ω, The Current Through It Is Constant Up To Two Significant Digits. Find Its Value. This Is The Basic Principle Of A Constant-current Source. - 32: Electric Current In Conductors - Neet-xii-physics

Home Learn Fast select Course

Show Unit/Chapter Change Unit Change Subject Last Menu

NEET-XII-Physics

32: Electric Current in Conductors

with Solutions - page 6

Qstn# iv-22 Prvs-Qstn Next-Qstn

#22
A battery of emf 100 V and a resistor of resistance 10 kΩ are joined in series. This system is used as a source to supply current to an external resistance R. If R is not greater than 100 Ω, the current through it is constant up to two significant digits.
Find its value. This is the basic principle of a constant-current source.
Ans : Given:
Emf of the battery, E = 100 volt
Resistance in series with battery, R' = 10 kΩ = 10000 Ω
External resistance, R = (1-100) Ω
When no external resistor is present (R = 0), current through the circuit,
`` i=\frac{\,\mathrm{\,E\,}}{\,\mathrm{\,R\,}\mathit{\text{'}}}=\frac{100}{1000}=0.01\,\mathrm{\,Amp\,}.``
`` ``
When R = 1 Ω,
`` i=\frac{100}{10000+1}=\frac{100}{10001}``
`` =0.009999\,\mathrm{\,A\,}``
When R = 100 Ω,
`` i=\frac{100}{10000+100}``
`` =\frac{100}{10100}=0.009900\,\mathrm{\,A\,}``
We can see that up to R = 100 Ω, the current does not change up to two significant digits.
Page No 199: