Transcript 11-19-08
Currents
11/19/08
Aluminum wiring has sometimes
been used instead of copper for
economy. According to the National
Electrical Code, the maximum
allowable current for 12-gauge Cu
wire with rubber insulation is 20 A.
What should be the maximum
allowable current in a 12-gauge Al
wire if the power per unit length in
the Al wire is the same as that in the
Cu wire?
Problems
2. A current of 4.82 A exists in a 12.4
resistor for 4.6 min.
a. How much charge passes through any cross
section of the resistor in this time?
b. How many electrons does this correspond
to?
Problems
3. A 5.12 A current is set up in an external
circuit by a 6 V storage battery for 5.75
min. How much is the energy of the
battery reduced?
Problems
4. A 12 V car battery carries an initial
charge of 125 Ahr. Assuming that the
potential across the terminals stay
constant until the battery is completely
discharged, how long can it deliver
energy at 110 W?
Radial Resistance of a Coaxial Cable
a = 0.500 cm
b = 1.75 cm
L = 15.0 cm
= 640 m
An experiment is conducted to measure the electrical resistivity of
Nichrome in the form of wires with different lengths and cross-sectional
areas. For one set of measurements, a student uses 30-gauge wire, which
has a cross-sectional area of 7.30 × 10–8 m2. The student measures the
potential difference across the wire and the current in the wire. For each of
the measurements given in the table taken on wires of three different
lengths, calculate the resistance of the wires and the corresponding values
of the resistivity. What is the average value of the resistivity, and how does
this value compare with the tabulated value?
L (m)
ΔV (V)
I (A)
R (Ω)
ρ(Ω · m)
0.540
5.22
0.500
1.028
5.82
0.276
1.543
5.94
0.187
An electric car is designed to run off a bank of 12.0-V batteries with
total energy storage of 2.00 × 107 J.
(a) If the electric motor draws 8.00 kW, what is the current delivered
to the motor?
(b) If the electric motor draws 8.00 kW as the car moves at a steady
speed of 20.0 m/s, how far will the car travel before it is “out of
juice”?
.
A parallel-plate capacitor consists of square plates of edge
length ℓ that are separated by a distance d, where d << ℓ. A
potential difference ΔV is maintained between the plates. A
material of dielectric constant κ fills half of the space
between the plates. The dielectric slab is now withdrawn
from the capacitor, as shown in the figure.
a) Find the capacitance when the left edge of the dielectric is
at a distance x from the center of the capacitor.
b) If the dielectric is removed at a constant speed v, what is
the current in the circuit as the dielectric is being
withdrawn?