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Why is length and resistance directly proportional?

Why is length and resistance directly proportional?

As the length increases, the number of collisions by the moving free electrons with the fixed positive ions increases as more number of fixed positive ions are present in an increased length of the conductor. As a result, resistance increases.

Is resistance directly or inversely proportional to length?

The resistance of a wire is directly proportional to its length and inversely proportional to its cross-sectional area. Resistance also depends on the material of the conductor. See resistivity. The resistance of a conductor, or circuit element, generally increases with increasing temperature.

What is the relationship between resistance length and area?

Resistance is proportional to resistivity and length, and inversely proportional to cross sectional area.

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Is length inversely proportional to area?

Then, YES, length is inversely proportional to the area of cross section….

Is length inversely proportional to length?

There are phenomena where a length in a system increases with frequency of a particular event. So the timescales over which the length increases, decreases. Length is inversely proportional to time and directly proportional to frequency.

How resistance is directly proportional to length?

Directly proportional ; as the length of the wire increases , its resistance increases. Why? Simply speaking,the longer the distance the electron has to travel ,the more collisions it will face with the atoms ; which means higher resistance.

How the resistance is inversely proportional to area square?

So, the resistance to current flow in less. The very property of Resistance being inversely proportional to the area of the conductor=> area of any circular section being proportional to square of its diameter => The resistance is inversely proportional to square of the conductor’s diameter.

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Is length directly proportional to area?

Area of cross section of the conductor. From this relation, we observe that the length is directly proportional to the resistance and the area of cross section is inversely proportional to the resistance.

Is resistance directly proportional or inversely proportional to power?

From here, we can see that the power P is inversely proportional to the resistance R. When the power in the circuit is high, resistance will be lesser. However, if the power is low, the resistance will be high.

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