Voltage Division Rule & Its Application To LDR

Name: Voltage Division Rule & Its Application To LDR
Availability: InStock
Rating: 4.83 (6 reviews)

Available:In Stock

Product SKU: LGSK001

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₹ 129 - ₹ 249

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Highlights

Product Code: LGSK001
Technical support - available on email
Handmade
Make in India

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Video support to be purchased separately

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Details

Solderless Paper circuit.
Includes: Circuit drawn on paper and its components, connecting wires & LDR
Documentation: Description, Component list, and Circuit diagram.
Power Supply: No battery included, Includes 9 Volt Battery cap only.
Video tutorial is available on YouTube.

One set with its components & wires in running condition.
Documentation: Description, Component list, and Circuit diagram.
Power Supply: No battery included, Includes 9 Volt Battery cap only.
Video tutorial is available on YouTube.

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Specification

Description

The kit demonstrates the voltage division rule. According to this, the total voltage applied across a series connection of multiple resistors is divided among the resistors in proportional to their resistance. This means the voltage drop will be maximum across the resistor having a maximum value of resistance.

We can understand the voltage division rule very easily from the given circuit. If we assume LDR as a resistor then as per voltage division rule the voltage at point v2 will be equal to V*(R1/(R1+R2). Clearly, Voltage Division Rule can be understood from the given equation that, if the value of R1 changes, the overall voltage at V2 will also change. If we interchange R1 and R2, then it can be made more sensitive.

The above concept can be understood in the following ways: As the light falls on the LDR, its resistance decreases hence most of the current flows towards Application To LDR, and the brightness of the led decreases and vice versa.