e = In a typical lightning bolt, the potential difference between the points of the discharge is about A V = 1x10⁹ V and the amount of energy transferred is about Q=30 C (G = 10º, LF = 3,33x105 - -1,6x10-¹⁹ C, me = 9,1 x 10-31 kg) kg 1) II) III) How much energy is released? If all the energy released could be used to accelerate a car of mass=1200 kg from rest, What will be its final speed? If it could be used to melt ice, how much ice would it melt at 0°C?
e = In a typical lightning bolt, the potential difference between the points of the discharge is about A V = 1x10⁹ V and the amount of energy transferred is about Q=30 C (G = 10º, LF = 3,33x105 - -1,6x10-¹⁹ C, me = 9,1 x 10-31 kg) kg 1) II) III) How much energy is released? If all the energy released could be used to accelerate a car of mass=1200 kg from rest, What will be its final speed? If it could be used to melt ice, how much ice would it melt at 0°C?
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Transcribed Image Text:In a typical lightning bolt, the potential difference between the points of the discharge is about A V =
1x10⁹ V and the amount of energy transferred is about Q=30 C (G = 10º, LF = 3,33x105 — e =
kg
9,1 x 10-³1 kg)
-1,6x10-1⁹ C, me
1)
II)
III)
-
How much energy is released?
If all the energy released could be used to accelerate a car of mass=1200 kg from rest,
What will be its final speed?
If it could be used to melt ice, how much ice would it melt at 0°C?
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