Electricity Question for Unit 2 Edexcel

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When lightning strikes a tree, the potential difference between the top and bottom is greater than that in a lightning conductor due to the tree's smaller cross-sectional area, which increases resistance. The relationship between resistance (R), resistivity (ρ), length (l), and area (A) indicates that a smaller area results in higher resistance. According to Ohm's Law (V = IR), a higher resistance leads to a larger potential difference when the same current flows. Additionally, the material properties of trees versus lightning conductors contribute to this difference, as trees are made of wood, which has higher resistivity. Understanding these principles clarifies why the potential difference is greater in trees during a lightning strike.
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Homework Statement


If lightning strikes a tree such that there is the same current through it as there was through the lightning conductor, then a much larger potential difference exists between top and bottom of the tree. Explain why this is so.

The Attempt at a Solution


Is this something got to do with area ? R=pl/A ?
How do you explain this ?
 
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gangnamstyle said:

Homework Statement


If lightning strikes a tree such that there is the same current through it as there was through the lightning conductor, then a much larger potential difference exists between top and bottom of the tree. Explain why this is so.

The Attempt at a Solution


Is this something got to do with area ? R=pl/A ?
How do you explain this ?

There are 3 variables there: ρ , l & A you should consider/compare each of them.
 
This is how I answered :

The tree has a smaller area. From the equation ( R=pl/A ), when A is small, resistance is higher because they're indirectly propotional to each other. From equation ( V= IR ), when R increases, p.d. increases.

Not sure whether correct or not. Otherwise, how would you answer it ?
 
gangnamstyle said:
This is how I answered :

The tree has a smaller area. From the equation ( R=pl/A ), when A is small, resistance is higher because they're indirectly propotional to each other. From equation ( V= IR ), when R increases, p.d. increases.

Not sure whether correct or not. Otherwise, how would you answer it ?

I think the key is the ρ : the resistivity.

Most lightning conductors are small in cross-section, and made of brass or iron.

Most trees have a large cross-section, but are made of wood!

Also, a lightning conductor is long enough to reach from the ground to the top of a tall building [they don't use them on short buildings]. How tall [long] is a tree?
 
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