Consider a lightning bolt carrying a 21000-A current through a voltage of 0.95 × 102 MV and lasting 0.95 ms. (a) What energy, in joules, is dissipated by the lightning bolt? (b) What mass of tree sap, in kilograms, could be raised from 18.0ºC to its boiling point and then evaporated by this energy, assuming sap has the same thermal characteristics as water (specific heat of 4186 J/(kg⋅K) and heat of evaporation 2256 kJ/kg)?

Consider a lightning bolt carrying a 21000-A current through a voltage of 0.95 × 102 MV and lasting 0.95 ms. (a) What energy, in joules, is dissipated by the lightning bolt? (b) What mass of tree sap, in kilograms, could be raised from 18.0ºC to its boiling point and then evaporated by this energy, assuming sap has the same thermal characteristics as water (specific heat of 4186 J/(kg⋅K) and heat of evaporation 2256 kJ/kg)?

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Question

Consider a lightning bolt carrying a 21000-A current through a voltage of 0.95 × 10² MV and lasting 0.95 ms.

(a) What energy, in joules, is dissipated by the lightning bolt?

(b) What mass of tree sap, in kilograms, could be raised from 18.0ºC to its boiling point and then evaporated by this energy, assuming sap has the same thermal characteristics as water (specific heat of 4186 J/(kg⋅K) and heat of evaporation 2256 kJ/kg)?

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