3. [Problem 1-9]: A 5-cm layer of loosely packed asbestos is placed between two plates at...
An exterior wall of a house made in three layers (brick (layer 1) + loosely packed rock (layer 2) + gypsum plaster (layer 3)) may be approximated by a L1=10 cm layer of common brick k1=0.7 W/m℃ and a L3=4 cm layer of gypsum plaster k3=1.07 W/m℃. The total wall surface A=55 m2. The thickness L2 of loosely packed rock-wool insulation k2=0.65 W/m℃. The outlet temperature To=45℃, the inner temperature Ti=22℃, The internal wall temperature T1=27℃ . The heat transfer...
charged gold for charged metal plates I Figure 9. Investigating the electric field between two charged metal plates 1 Figure 9.5 on page 134 shows apparatus used to investigate the field between a pair of charged, parallel plates. a Explain why the piece of gold foil deflects in the manner shown. b State and explain what would be observed if the gold foil momentarily touched the negatively charged plate. 2 A charged dust particle in an electric field experiences a...
(5 Marks) B/ consider two large parallel plates one at T,-727 ℃ with emissivity c,-os and other at T2-227 ℃ with on both sides in placed between result of the emissivity e-0.4. An aluminum radiation shield with an emissivity c 0.0s the plates. Calculate the percentage reduction in heat transfer rate between the two plates as a shield, and draw the radiation network.
1. In between the two copper plates described in the problem above, rather than just paraffin, there is a layer of thickness di of paraffin with dielectric K1, as well as another layer on of thickness d2 of another substance with dielectric constant K2. Derive a formula for the capacitance of this new system in terms of di, d2, K1,R2, and the disk radius R. 1. In between the two copper plates described in the problem above, rather than just...
Two infinite parallel conducting plates between (x=-10 cm and x=0 cm), (y=-20 cm and y=0 cm) and placed at z=0 and z=3 cm excited by a voltage source V=10 Volts. The two plates are separated by air. a) Find the electric field E between the two conducting plates b) The capacitance/unit area of the ideal conductor made by the two planes
A hair is placed at one edge between two flat glass plates 10.7 cm long. When this arrangement is illuminated with 619 nm light, 132 bands are counted, starting at the point of contact of the two plates. How thick is the hair? Answer in units of m. I've tried 4.054E5 and got it wrong
a) The potential difference between two parallel plates is 24.0 kV. The plates are 3.00 cm apart and are separated by air. What is the electric field between the plates? (Specify magnitude and direction.) b) If we take the negative plate to be at 0 V, what is the voltage at 0.5 cm away from this plate? Repeat for each increment of 0.5 cm between the plates. c) Draw a diagram of field lines and equipotential lines between the plates....
A capacitor is constructed from two square metal plates. The gap between the plates is filled with two dielectrics of equal size as shown in the figure below. Neglect edge effects. 1.59 cm 0.12 mm dielectric constant right 7.4 dielectric constant left 4.7 Calculate the capacitance C of the device. Answer in units of pF. part 2: What is the ratio Vlef t Vright of electric potential across the dielectric in the left-half region to that across the dielectric in...
Two 2.0 cm ✕ 2.0 cm plates that form a parallel-plate capacitor are charged to 0.773 nC. Calculate (i) the electric field strength inside and (ii) the potential difference across the capacitor if the spacing between the plates is (a) 1.2 mm and (b) 2.4 mm. (i) (N/C) (ii) (V) (a) (b)
The electric field in the region between two oppositely charged, parallel, conducting plates has a magnitude of 250 N/C and the plates are separated by a distance of 20 cm. A) calculate the surface charge density on each plate and B) the acceleration of a proton if it is placed 5 cm from the positive plate and released from rest