3. Find the capacitance of a parallel plate capacitor filled with two dielectrics as shown. The...
(1) As shown in the Figure below, a parallel-plate capacitor of plate area A is filled with two laye ers of dielectrics, di and de thick, with permittivities s and s2, respectively. Ignoring the ringe effect at the four edges (assuming rectangular plates), find the fields Ei and E2 in the t dielectric ctrics if a voltage V(assumed positive) is applied to the top plate with regard to the bottom plate. (Note: both magnitudes and directions needed.) (2) Find the...
Problem 1. Electrostatics (1) As shown in the Figure below, a parallel-plate capacitor of plate area A is filled with two layers of dielectrics, ch and d2 thick, with permittivities fringe effect at the four edges (assuming rectangular plates), find the fields Ei and Es in the two dielectrics if a voltage V (assumed positive) is applied to the top plate with regard to the bottom plate. (Note: both magnitudes and directions needed.) and a, respectively. Ignoring the (2) Find...
Problem 7 The space between a parallel plate capacitor is filled with two slabs of dielectric material, as shown in figure (18.46) The dielectric constant of one slab is κι and the dielectric constant of the other slab is K2. The separation between the plates is d, and each slab fills half of the space between the plates of the capacitor. Determine the capacitance of this capacitor if the area of the two plates is A 2 Figure 18.46: Problem7
upper plate (area A) K2 d Imagine a parallel plate capacitor made from two square plates of area A that are separated by a distance 2d. One half of the volume between the plates is filled with a dielectric material with a dielectric constant K1; the other half is filled with two equal, stacked layers of dielectric materials with constants K2 and K3, as shown. Find the capacitance of this capacitor. 2d K1 K3 d bottom plate (area A)
Problem 5 The space between the plates of a parallel-plate capacitor, shown below, is filled with two slabs of different dielectric materials. The slab at the top has thickness 2d and a relative dielectric constant of er1 = 3 and the one at the bottom has thickness d and a relative dielectric constant of er2 = 2. The capacitor plates have surface area S. a. Assume a total charge of +Q on the top plate and -Q on the bottom plate. Find...
(a) Determine the capacitance that can be applied to a Teflon-filled parallel-plate capacitor having a plate area of 130 cm^2 and insulation thickness of 0.0240 mm. (b) Determine the maximum voltage that can be applied to a Teflon-filled parallel-plate capacitor having a plate area of 130 cm^2 and insulation thickness of 0.0240 mm. 9.59 nF was not correct for part a)
A parallel plate capacitor has a capacitance of 6.8 µF when filled with a dielectric. The area of each plate is 1.4 m2 and the separation between the plates is 1.02x10^-5 m. What is the dielectric constant of the dielectric?
A parallel plate capacitor has a capacitance of 7.1 µF when filled with a dielectric. The area of each plate is 1.4 m2 and the separation between the plates is 1.02 10-5 m. What is the dielectric constant of the dielectric?
The drawing shows a parallel plate capacitor. One-half of the region between the plates is filled with a material that has a dielectric constant κ1=2.4. The other half is filled with a material that has a dielectric constant κ2=4.4. The area of each plate is 1.2cm2, and the plate separation is 0.19 mm. Find the capacitance.
A parallel plate capacitor has a capacitance of 8.5 μF when filled with a dielectric. The area of each plate is 1.9 m2 and the separation between the plates is 1.2 x 10-5 m. What is the dielectric constant of the dielectric?