A parallel-plate capacitor with plates of area A = 0.100 m2 separated by distance d = 2.45 ✕ 10−3 m is connected to a battery with a potential difference of 8.50 V for a very long time. Initially, a vacuum exists between the plates. (a) How much energy is stored in the capacitor? (b) What is the magnitude of the electric field between the plates?

Q: A particle with charge 8.75 x 10-13 C moves a distance d = 0.30 m in a straight line between points…

A: Given that                     The charge on the particle is (q) = 8.75×10-13C…

Q: A parallel-plate capacitor has plates of area 0.40 m2 and plate separation of 0.20 mm. The capacitor…

A: We are given a parallel plate capacitor. We are given its plate area and separation between  plates.…

Q: The membrane surrounding a living cell consists of an inner and an outer wall that are separated by…

A:

Q: A uniform electric field of magnitude 378 N/C pointing in the positive x-direction acts on an…

A: Given data The electric field is given as E = 378 N/C. The distance traveled by the electron is d =…

Q: Oppositely charged parallel plates are separated by 6.06 mm. A potential difference of 600 V exists…

A:

Q: A uniform electric field of magnitude 220 V/m is directed in the positive x direction. A +12.0 pC…

A:

Q: A uniform electric field of magnitude 280 V/m is directed in the positive x direction. A +14.0 µC…

A:

Q: A 9.00-V potential difference is applied across a 12.0-F parallel- plate capacitor whose plates are…

A: Given that,Potential difference across the plates, VCapacitance , C=12FVolume between plates,…

Q: A parallel plate capacitor has plates of area 6.0 cm2 separated by 0.050 mm. The capacitor is…

A: Given:The area of the plate is 6 cm2. The separation between plates is 0.05 mm. The supply voltage…

Q: Two parallel plates of area 100 cm2 are given charges of equal magnitudes 8.9 × 10–7 C but opposite…

A: Given:- Two parallel plates are given. To find:- Dielectric constant Magnitude of induced charge.…

Q: The plates of a parallel-plate capacitor are 700 cm2 in area and 0.3 cm apart. THe potential…

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Q: An electric field of 1000 V/m is applied to an electric dipole at angle of 45°. The value of…

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Q: An ideal parallel-plate capacitor has a capacitance of 78.5 pF. The rectangular plates of the…

A:

Q: Problem 4: An electron is initially at rest in a uniform electric field having a strength of 1.8 ×…

A: Given information: The strength of the electric Field (E) = 1.8×106 V/m Part a: The distance…

Q: A proton, initially at rest, moves along the direction of a uniform electric field due to this…

A: acceleration of proton  a = eE/m = (1.6×10-19×8.11)/(1.67×10-27)  a = 7.77 × 108 m/s2  Initial…

Q: A uniform electric field of magnitude 392 N/C pointing in the positive x-direction acts on an…

A: Given that, Electric field, E = 392 N/C pointing in the positive x-direction  The distance moved by…

Q: Two parallel plates have equal and opposite charges. When the space between the plates is evacuated,…

A: Given data E0=3.2×105 V/mE1=2.5×105 V/m

Q: A proton is moving from an initial point A to a final point point B, a distance 0.50 m, in a…

A: Given distance between points A and B  d= 0.50 m                                        Electric…

Q: The electric potential inside a typical living cell is 0.070V lower than the electric potential…

A:

Q: The electric field between the plates of an air-filled parallel plate capacitor has a strength of…

A: Given that--- Electric field = 500 V/m Area = 2 * 10-2 m2. C = 8 * 10-12 F. We have to find - - -…

Q: A uniform electric field of magnitude 410 N/C pointing in the positive x-direction acts on an…

A:

Q: The average electric field between two large metal plates separated by 0.10 cm is 3.0 × 105 V/m.…

A: a) Write the expression for the potential difference and substitute the required values.

Q: A potential difference of 2-V is applied between two large parallel metal plates separated by a…

A: Write the given values with the suitable variables. V=2 Vd=2 mm=2×10-3 m Here, V is the potential…

Q: A particle with charge 8.75 x 10-13 C moves a distance d = 0.30 m in a straight line between points…

A:

Q: A uniform electric field of magnitude 250. V/m is directed in the positive xdirection. A 12.0-μC…

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Q: An a particle (g = +2e) moves a distance of 3,700 cm from a to b in a linear accelerator. A uniform…

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Q: The electric field strength between two parallel conducting plates separated by 3.60 cm is 4.90 ✕…

A: Given data: Distance between parallel plates (d) = 3.60 cmElectric field strength (E) = 4.90×104 V/m

Q: The capacitance of a parallel plate capacitor in vacuum is Co= 8 pF, by inserting a dielectric…

A: Given data :- Capacitance in air C0 = 8 pFCapacitance with dielectric C' = 40 pFElectric field in…

Q: Starting from rest, a proton was accelerated by an electric field. After a distance of 1.35 m the…

A: Given Data Distance covered by the proton is d=1.35 m Final speed of the proton is vf=1.97×105 m/s…

Q: The electric field between the plates of a paper-separated (K=3.75)(K=3.75) capacitor is 8.18×104…

A: Here, we have to obtain the capacitance and area of each plate.

Q: What is the magnitude, in volts, of the maximum potential difference between two parallel conducting…

A: Given: The strength of the electric field is 3x106 V/m. The separation between plates is 0.51 cm.

Q: Oppositely charged parallel plates are separated by 5.58 mm. A potential difference of 600 V exists…

A: a) Magnitude of electric field(E) between the plates which are separated by a distance of d, and…

Q: 1) A 2.4 cm x 2.4 cm parallel plate capacitor has a 1.8 mm gap spacing between the two plates. The…

A: 1. Given: Area of plate A=2.4*2.4=5.76 cm2=5.76*10-4 m2spacing d=1.8 mm=1.8*10-3 mElectric field…

Q: A proton is moving from an initial point A to a final point point B, a distance 0.50 m, in a…

A: Given E = 6.4 x 104 V/m   ( direction B to A) Distance AB ,D = 0.50 m

Q: Oppositely charged parallel plates are separated by 4.97 mm. A potential difference of 600 V exists…

A:

Dielectric Constant Of Water

Water constitutes about 70% of earth.  Some important distinguishing properties of water are high molar concentration, small dissociation constant and high dielectric constant.

Electrostatic Potential and Capacitance

An electrostatic force is a force caused by stationary electric charges /fields. The electrostatic force is caused by the transfer of electrons in conducting materials. Coulomb’s law determines the amount of force between two stationary, charged particles. The electric force is the force which acts between two stationary charges. It is also called Coulomb force.