The figure below shows different ways to connect a light bulb to
a battery with wires. Which of the bulbs will light up?
is 5 the correct answer?
Wires starting from two terminals of the cell should be connected to two different metal points over the bulb Which is correctly shown by figure 5
The figure below shows different ways to connect a light bulb to a battery with wires....
compared to a what is the brightness of each bulb in b
compared to a what is the brightness of each bulb in c
In the figure below, all light bulbs are identical and behave like resistors. All batteries are identical. Ideal wires connect the light bulbs to the batteries in three different ways: (a), (b), (c). 00,0 00.0 000009 000 (a) (b) (c)
A 12-volt battery is connected to two light bulbs, as drawn in
Figure 1. Light bulb 1 has resistance 3 ohms, while light bulb 2
has resistance 6 ohms. The battery has essentially no internal
resistance, and all the wires are essentially resistanceless,
too.
When a light bulb is unscrewed, no current flows through that
branch of the circuit. For instance, if light bulb 2 is unscrewed,
current flows only around the lower loop of the circuit, which
consists of...
for each of the situations in figures 1-11 , follow the
instructions below. all batteries have the same voltage (e) and all
the bulbs have the same resistance
11" 12 13 14 IS 16 17T 18 19 20 21 22 23 2.25 26 27 28 29 30 due DL.4 to do this You need two Ad or Ads bameries and three lght bulbs with attached pigtail leads in order assignment. The plastic insulation needs to be stripped back on the...
In the circuit shown in the diagram below, two thick wires connect a 1.4 volt battery to a Nichrome (NIC) wire. Each thick connecting wire is 14 cm long, and has a radius of 9 mm. The thick wires are made of copper, which has 8.35+28 mobile electrons per cubic meter, and an electron mobility of 0.00434 (m (V/m). The Nichrome wire is 8 cm long, and has a radius of 4 mm. Nichrome has 9e+28 mobile electrons per cubic...
The
figure below shows the path of a light beam through several slabs
with different indices of refraction. (n4 = 1.06)
The figure below shows the path of a light beam through several slabs with different indices of refraction. (n4 1.06) n1.60 1.40 1.20 (a) If 01 33.0°, what is the angle 02 of the emerging beam? (b) What must the incident angle 01 be to have total internal reflection at the surface between the medium with n 1.20 and...
The figure below shows the path
of a beam of light through several layers with different indices of
refraction. (n4 = 1.00)
(a) If θ1 = 31.0°, what is the angle θ2 of the emerging beam?
°
(b) What must the incident angle θ1 be in order to have total
internal reflection at the surface between the medium with n = 1.20
and the medium with n4 = 1.00?
The figure below shows the path of a beam of light through several layers with different indices of refraction. (Assume n4 = 1.10.) (a) If θ1 = 32.0°, what is the angle θ2 of the emerging beam? (b) What is the smallest incident angle θ1 to have total internal reflection at the surface between the medium with n = 1.20 and the medium with n4 = 1.10?
Example 5 Figure below shows the effect of two different light intensities, namely 800 and 600 W per m² on the output voltage and current of a solar cell module. If the total cell area of the module is 0.42 m², calculate: (i) The output power of the module when it operates at each of the points A, and B. (ii) The solar to electric efficiency of the module at points A, and B. (iii) The output power at points...
Problem 4: Read Appendix 2 below (Sec. 1.4.1 of Kasap) and then solve. A metallic back contact is applied to the CdTe solar cell of Problem 1 using a set up similar to that described in Figure 1.74 (b) on the next page. To form the metallic back contact, two evaporation sources are used, Cu and Au. An initial 3 nm layer of Cu is deposited first and then 30 nm of Au is deposited. After these depositions, the sample...