If the electric field inside a capacitor exceeds the dielectric strength of the dielectric between its...

Consider a dielectric with a dielectric constant K = 2.6 and a dielectric strength of 2.0×107...

Consider a dielectric with a dielectric constant K = 2.6 and a dielectric strength of 2.0×107 Vm^(−1) . A piece of this dielectric is placed between the plates of a parallel plate capacitor, completely filling the volume between the plates. a. What is the energy density inside the capacitor when the electric field between the plates is 80% of the dielectric strength. b. When the capacitor is connected to a battery with a 500.0 V voltage, the electric field is...

The dielectric in a capacitor serves two purposes. It increases the capacitance, compared to an otherwise...

The dielectric in a capacitor serves two purposes. It increases the capacitance, compared to an otherwise identical capacitor with an air gap, and it increases the maximum potential difference the capacitor can support. If the electric field in a material is sufficiently strong, the material will suddenly become able to conduct, creating a spark. The critical field strength, at which breakdown occurs, is 3.0 MV/m for air, but 60 MV/m for Teflon. A parallel-plate capacitor consists of two square plates...

Polystyrene has dielectric constant 2.6 and dielectric strength 2.0 ×× 1077 V/mV/m. A piece of polystyrene...

Polystyrene has dielectric constant 2.6 and dielectric strength 2.0 ×× 1077 V/mV/m. A piece of polystyrene is used as a dielectric in a parallel-plate capacitor, filling the volume between the plates. A) When the electric field between the plates is 79 %% of the dielectric strength, what is the energy density of the stored energy? B) When the capacitor is connected to a battery with voltage 500.0 VV, the electric field between the plates is 79 %% of the dielectric...

The dielectric strength of air, E = 3.0×106 V/m, is the maximum field that air can...

The dielectric strength of air, E = 3.0×106 V/m, is the maximum field that air can withstand before it breaks down and becomes conducting. Part A) How much charge can be placed on a spherical conductor with a 15.0- cm radius before the field at its surface exceeds the breakdown strength of the air? Part B) What would be the electric potential at the surface of this conductor?

Polystyrene has dielectric constant 2.6 and dielectric strength 2.0 × 107 V/m. A piece of polystyrene...

Polystyrene has dielectric constant 2.6 and dielectric strength 2.0 × 107 V/m. A piece of polystyrene is used as a dielectric in a parallel-plate capacitor, filling the volume between the plates. Part A When the electric field between the plates is 76 % of the dielectric strength, what is the energy density of the stored energy? Express your answer with the appropriate units. u = nothingnothing SubmitRequest Answer Part B When the capacitor is connected to a battery with voltage...

1) Find the electric field inside a 10 microFarad parallel plate capacitor when connected to a...

1) Find the electric field inside a 10 microFarad parallel plate capacitor when connected to a 6V battery if the gap between the capacitor plates is filled with air. Repeat your calculation if the gap is filled with paper with a dielectric constant of 4? 2) A capacitor is formed between two metal plates, both 10 x 10cm, separated by 1mm. A) What is its capacitance? B) When connected to a 10 V battery how much charge flows onto the...

(1)(A)Determine the electric field strength between two parallel conducting plates to see if it will exceed...

(1)(A)Determine the electric field strength between two parallel conducting plates to see if it will exceed the breakdown strength for air (3 ✕ 106 V/m).The plates are separated by 2.72 mm and a potential difference of 4840 V is applied? How close together can the plates be with this applied voltage without exceeding the breakdown strength? (B) FInd the total capacitance of the combination of capacitors (C1 = 0.310 µF, C2 = 22.5 µF.) (C)585 C passes through a flashlight...

(a) How much charge can be placed on a capacitor with air between the plates before...

(a) How much charge can be placed on a capacitor with air between the plates before it breaks down if the area of each plate is 6.00 cm2? (Assume air has a dielectric strength of 3.00 ✕ 106 V/m and dielectric constant of 1.00.) nC (b) Find the maximum charge if bakelite is used between the plates instead of air. (Assume bakelite has a dielectric strength of 24.0 ✕ 106 V/m and dielectric constant of 4.9.) nC

air breaks down and conducts charge as a spark if the electric field exceeds 3.00 x10^6...

air breaks down and conducts charge as a spark if the electric field exceeds 3.00 x10^6 V/m. a)Determine the maximum charge (Qmax) that can be stored on an air filled parallel capacitor with plate area of 2.00 x10^-4m^2 b)A 75.0 microF aire filled parallel plate capacitor stores charge (Qmax). Find teh potential difference across its plates.

a) An electric field has the expression E = 3.0î + 2.0ĵ V/m. The position of...

a) An electric field has the expression E = 3.0î + 2.0ĵ V/m. The position of a particle is given by ds = 5.0dyĵ m. Determine the electric potential of this particle from x = 2.0 cm to x = 10.0 cm. b) The voltage across an air-filled capacitor is measured to be 25.0 V. An unknown dielectric is inserted between the plates, the voltmeter now reads 10.0 V. What is the most likely material this dielectric is made out...