Question 1

Resistance's of 5 &#61527; , 7 &#61527; , and 8 &#61527; are connected in series. If a 10 V supply voltage is connected across the arrangement determine the current flowing through and the p.d. across the 7 &#61527; resistor. Calculate also the power dissipated in the 8 &#61527; resistor.

Accepted Answer

The circuit is shown in Figure 1.&#10; &#10;Current $ I=\frac{V}{R_{T}}=\frac{10}{5+7+8}=\frac{10}{20}=0.5 \mathrm{~A} $&#10;Hence, current in $ 7 \Omega $ resistor $ =0.5 \mathrm{~A} $&#10;P.d. across $ 7 \Omega $ resistor, $ \mathrm{V}_{1}=(\mathrm{I})(7)=(0.5)(7)=3.5 \mathrm{~V} $&#10;Power dissipated in $ 8 \Omega $ resistor $ =\mathrm{I}^{2}(8)=(0.5)^{2}(8)=\mathbf{2} \mathrm{W} $

Question 2

For the series-parallel network shown in Figure RT2.1, find (a) the supply current, (b) the current flowing through each resistor, (c) the p.d. across each resistor, (d) the total power dissipated in the circuit, (e) the cost of energy if the circuit is connected for 80 hours. Assume electrical energy costs 14 p per unit.

Figure RT2.1

Accepted Answer

11ede35f_3bec_db44_9782_93ffec3e11c9_TBR1204_00

Question 3

The charge on the plates of a capacitor is 8 mC when the potential between them is 4 kV. Determine the capacitance of the capacitor.

Accepted Answer

11ede35f_3bec_db45_9782_d30896a236be_TBR1204_00

Question 4

Two parallel rectangular plates measuring 80 mm by 120 mm are separated by 4 mm of mica and carry an electric charge of 0.48 C. The voltage between the plates is 500 V. Calculate
(a) the electric flux density (b) the electric field strength, and (c) the capacitance of the capacitor, in picofarads, if the relative permittivity of mica is 5.

Accepted Answer

The answer of Two parallel rectangular plates measuring 80 mm...

Question 5

A 4 &#61549; F capacitor is connected in parallel with a 6 &#61549; F capacitor. This arrangement is then connected in series with a 10 &#61549; F capacitor. A supply p.d. of 250 V is connected across the circuit. Find (a) the equivalent capacitance of the circuit, (b) the voltage across the 10 &#61549; F capacitor, and (c) the charge on each capacitor.

Accepted Answer

The answer of A 4 &#61549; F capacitor is connected...

Question 6

A coil of 600 turns is wound uniformly on a ring of non-magnetic material. The ring has a uniform cross-sectional area of 200 mm² and a mean circumference of 500 mm. If the current in the coil is 4 A, determine (a) the magnetic field strength, (b) the flux density, and (c) the total magnetic flux in the ring

Accepted Answer

The answer of A coil of 600 turns is wound...

Question 7

A mild steel ring of cross-sectional area 4 cm² has a radial air-gap of 3 mm cut into it. If the mean length of the mild steel path is 300 mm, calculate the magnetomotive force to produce a flux of 0.48 mWb. (Use the B-H curve on page 146).

Accepted Answer

The answer of A mild steel ring of cross-sectional area...

Question 8

In the circuit shown in Figure RT2.2, the slider S is at the half-way point.
Figure RT2.2

(a) Calculate the p.d. across and the current flowing in the 400  load resistor.
(b) Is the circuit a potentiometer or a rheostat?

Accepted Answer

The answer of In the circuit shown in Figure RT2.2,...

Question 9

For the circuit shown in Figure RT2.3, calculate the current flowing in the 50  load and
the voltage drop across the load when (a) XS is 3/5 of XY
(b) point S coincides with point Y
Figure RT2.3

For the circuit shown in Figure RT2.3, calculate the current flowing in the 50 <font face=symbol></font> load and the voltage drop across the load when (a) XS is 3/5 of XY (b) point S coincides with point Y Figure RT2.3 <div style=padding-top: 35px>

Accepted Answer

The answer of For the circuit shown in Figure RT2.3,...

Deck 7: Series and Parallel Networks