Consider the Earth and a cloud layer 800 m above the planet to be the plates of a parallel-plate capacitor
Consider the Earth and a cloud layer 800 m above the planet to be the plates of a parallel-plate capacitor
(a) If the cloud layer has an area of 2.0 km2 = 2000000 m2, what is the capacitance?
(b) If an electric field strength greater than 3.0 x 106 N/C causes the air to break down and conduct charge (lightning), what is the maximum charge the cloud can hold?
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Consider the Earth and a cloud layer 800 m above the planet to be the plates of a parallel-plate capacitor
Consider the Earth and a cloud layer 500 m above the planet to be the plates...
Consider the Earth and a cloud layer 500 m above the planet to be the plates of a parallel-plate capacitor. (a) If the cloud layer has an area of 3.0 km2 = 3000000 m2, what is the capacitance? F (b) If an electric field strength greater than 3.0 ✕ 106 N/C causes the air to break down and conduct charge (lightning), what is the maximum charge the cloud can hold? C (Please show work)
6. Consider the Earth and a cloud layer 700 m above the planet to be the...
6. Consider the Earth and a cloud layer 700 m above the planet to be the plates of a parallel - plate capacitor. (a) If the cloud layer has an area of 3.0 km^2 = 3000000 m^2, what is the capacitance?(b) If an electric field strength greater than 3.0 . 10^6 N/C causes the air to break down and conduct charge (lightning), what is the maximum charge the cloud can hold?7. Given a 2.75 muF capacitor, a 3.75 muF capacitor,...
We model the surface of Earth and a cloud layer at 925 m height as a...
We model the surface of Earth and a cloud layer at 925 m height as a parallel plate capacitor (a) If the clouds cover an area of 3.0 km2, what is the capacitance of our model (in nF)? nF If an electric eld strength exceed g 3,0 × 106 NC causes ightning (the ar becomes conducting what is the maximum charge n C) that can be present on the cloud layer (D (c) Assume the capacitor discharges in a single...
We model the surface of Earth and a cloud layer at 830 m height as a...
We model the surface of Earth and a cloud layer at 830 m height as a parallel plate capacitor (a) If the clouds cover an area of 3.2 km2, what is the capacitance of our model (in nF)? nF (b) If an electric fieid strength exceeding 3.0 x 100 N/C causes lightning (the air becomes conducting), what is the maximum charge (in C) that can be present on the cloud layer? (c) Assume the capacitor discharges in a single lightning...
8. 0/12.5 points | Previous Answers ZinPhysLS3 17.P020 We model the surface of Earth and a...
8. 0/12.5 points | Previous Answers ZinPhysLS3 17.P020 We model the surface of Earth and a cloud layer at 975 m height as a parallel plate capacitor. (a) If the clouds cover an area of 1.6 km, what is the capacitance of our model (in nF)? (b) If an electric field strength exceeding 3.0 x 106 N/C causes lightning (the air becomes conducting), what is the maximum charge (in C) that can be present on the cloud layer? 40.95 (c)...
he plates of a parallel plate capacitor are 4 cm wide and 6 cm long. The...
he plates of a parallel plate capacitor are 4 cm wide and 6 cm long. The plates are separated by a 2.0-mm-thick layer of paper (a) Calculate the capacitance of the device (in pF) using the dielectric constant of paper from this table 37 pF (b) Any dielectric material other than a vacuum has a maximum electric field that can be generated in the dielectric material before it physically or chemically breaks down and begins to conduct. This maximum electric...
The plates of a parallel plate capacitor are 4 cm wide and 7 cm long. The...
The plates of a parallel plate capacitor are 4 cm wide and 7 cm long. The plates are separated by a 1.7-mm-thick layer of paper. a)Calculate the capacitance of the device (in pF) using the dielectric constant of paper b)Any dielectric material other than a vacuum has a maximum electric field that can be generated in the dielectric material before it physically or chemically breaks down and begins to conduct. This maximum electric field is called dielectric strength. The dielectric...
The plates of a parallel plate capacitor are 4 cm wide and 6 cm long. The...
The plates of a parallel plate capacitor are 4 cm wide and 6 cm long. The plates are separated by a 1.8-mm-thick layer of paper. (a) Calculate the capacitance of the device (in pF) using the dielectric constant of paper from this table. (b) Any dielectric material other than a vacuum has a maximum electric field that can be generated in the dielectric material before it physically or chemically breaks down and begins to conduct. This maximum electric field is...
17 P011 The plates of a parallel plate capacitor are 4 cm wide and (a) Calculate...
17 P011 The plates of a parallel plate capacitor are 4 cm wide and (a) Calculate the 9 cm long. The plates are separated by a 2.0- layer of paper capacitance of the device (in pf) using the dielectric constant of paper from this table 558 material other than a vacuum has a maximum electric fieild that can be generated in the dielectric material before it physically or chemically breaks down and begins to conduct This maximum electric feld is...
dielectric constant of the paper is 3.5 The plates of a parallel plate capacitor are 4...
dielectric constant of the paper is 3.5
The plates of a parallel plate capacitor are 4 cm wide and 6 cm long. The plates are separated by a 1.8-mm-thick layer of paper (a) Calculate the capacitance of the device (in pF) using the dielectric constant of paper from this table. 0.0836 X pF (b) Any dielectric material other than a vacuum has a maximum electric field that can be generated in the dielectric material before it physically or chemically breaks...
6. Consider the Earth and a cloud layer 700 m above the planet to be the plates of a parallel - plate capacitor. (a) If the cloud layer has an area of 3.0 km^2 = 3000000 m^2, what is the capacitance?(b) If an electric field strength greater than 3.0 . 10^6 N/C causes the air to break down and conduct charge (lightning), what is the maximum charge the cloud can hold?7. Given a 2.75 muF capacitor, a 3.75 muF capacitor,...
We model the surface of Earth and a cloud layer at 925 m height as a parallel plate capacitor (a) If the clouds cover an area of 3.0 km2, what is the capacitance of our model (in nF)? nF If an electric eld strength exceed g 3,0 × 106 NC causes ightning (the ar becomes conducting what is the maximum charge n C) that can be present on the cloud layer (D (c) Assume the capacitor discharges in a single...
We model the surface of Earth and a cloud layer at 830 m height as a parallel plate capacitor (a) If the clouds cover an area of 3.2 km2, what is the capacitance of our model (in nF)? nF (b) If an electric fieid strength exceeding 3.0 x 100 N/C causes lightning (the air becomes conducting), what is the maximum charge (in C) that can be present on the cloud layer? (c) Assume the capacitor discharges in a single lightning...
8. 0/12.5 points | Previous Answers ZinPhysLS3 17.P020 We model the surface of Earth and a cloud layer at 975 m height as a parallel plate capacitor. (a) If the clouds cover an area of 1.6 km, what is the capacitance of our model (in nF)? (b) If an electric field strength exceeding 3.0 x 106 N/C causes lightning (the air becomes conducting), what is the maximum charge (in C) that can be present on the cloud layer? 40.95 (c)...
he plates of a parallel plate capacitor are 4 cm wide and 6 cm long. The plates are separated by a 2.0-mm-thick layer of paper (a) Calculate the capacitance of the device (in pF) using the dielectric constant of paper from this table 37 pF (b) Any dielectric material other than a vacuum has a maximum electric field that can be generated in the dielectric material before it physically or chemically breaks down and begins to conduct. This maximum electric...
17 P011 The plates of a parallel plate capacitor are 4 cm wide and (a) Calculate the 9 cm long. The plates are separated by a 2.0- layer of paper capacitance of the device (in pf) using the dielectric constant of paper from this table 558 material other than a vacuum has a maximum electric fieild that can be generated in the dielectric material before it physically or chemically breaks down and begins to conduct This maximum electric feld is...
dielectric constant of the paper is 3.5
The plates of a parallel plate capacitor are 4 cm wide and 6 cm long. The plates are separated by a 1.8-mm-thick layer of paper (a) Calculate the capacitance of the device (in pF) using the dielectric constant of paper from this table. 0.0836 X pF (b) Any dielectric material other than a vacuum has a maximum electric field that can be generated in the dielectric material before it physically or chemically breaks...
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