4.In a circuit with an inductor of inductanceLand capacitor of capacitanceC, the voltage
across the inductance is given by
V=L
dI
dt
whereIis the current through the inductance, and the current through the capacitor is
given by
I=C
dV
dt
whereVis the potential across the capacitor.
(i) The time dependence of the current in a seriesRLcircuit with a constant voltage
sourceEcan be accurately modelled by the expression
I=
E
R
[
1 −exp
(
−
Rt
L
)]
What is the voltage across the inductor at timet?
(ii) AnRCcircuit with a constant capacitor and constant voltage source includes a
resistor whose resistance varies slowly according to a linear lawR=R 0 ( 1 +αt).
The voltage across the capacitor in such circumstances can be modelled by the
relation
V−V 0 =(E−V 0 )[1−( 1 +αt)−^1 /αCR^0 ]
whereV 0 is the voltage across the capacitor att=0. Determine the expression
for the current through the capacitor at timet.
5.The potential in the junction region of a semiconductorpnjunction is given by
V=
A
1 +exp(−kx)
whereAandkare material-dependent constants. The force on an electron with charge
ein such a potential region is given by
F=e
dV
dx
Obtain an expression for this force in terms of hyperbolic functions (138
➤
).
Answers to reinforcement exercises
8.3.1 Geometrical interpretation of differentiation
A.(i) 2 (ii)−1 (iii) 2 (iv)− 3
B.x=1and− 2