d k k S Δν The circuit in figure consists of two identical parallel metal plate connected by identical metal springs to a 100 V battery. The surface area of one plate is 1778 m². With the switch open, the plat are uncharged, and separated by a distance d = 2 mm. When the switch is closed, the distance between the plate decreases by a factor of half. What is the spring constant, Newton/meter, for each spring? Eo = 9 x 10¬12 C² /N m² a) 160000 b) 20000 c) 10240 d) 2500 e) 1280
d k k S Δν The circuit in figure consists of two identical parallel metal plate connected by identical metal springs to a 100 V battery. The surface area of one plate is 1778 m². With the switch open, the plat are uncharged, and separated by a distance d = 2 mm. When the switch is closed, the distance between the plate decreases by a factor of half. What is the spring constant, Newton/meter, for each spring? Eo = 9 x 10¬12 C² /N m² a) 160000 b) 20000 c) 10240 d) 2500 e) 1280
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Transcribed Image Text:d
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The circuit in figure consists of two identical parallel metal plates
connected by identical metal springs to a 100 V battery.
The surface area of one plate is 1778 m². With the switch open, the plates
are uncharged, and separated by a distance
d = 2 mm. When the switch is closed, the distance between the plates
decreases by a factor of half. What is the spring constant, in
Newton/meter, for each spring?
Eo = 9x 10-12 C²/N m²
a) 160000 b) 20000 c) 10240 d) 2500 e) 1280
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