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 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...
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)...
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)
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?
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 can model a layer of rainelouds as a plane of excess eharge and the earth's surface as a second excess charge with the same stre charge, but opposite sign. Then these two planes with equal raineloud layer reaches 3 MV/m (megn volts per meter). -3 e 500 mabiic iel Tm a sapacitor. Consider a raineloud 500 m above the earth's surface, covering an area Just before a lightning strike occurs, the eleetrie field strength between the earth's meter) or...