Series & Parallel Resistors in Circuits
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- čas přidán 18. 05. 2024
- In this video, we delve into the fundamental concepts of resistors in both series and parallel configurations. Understanding how resistors behave in these arrangements is crucial in various electrical circuits.
When resistors are connected in series, their total resistance increases, as they essentially add up along the circuit path. We explore how to calculate the total resistance in a series circuit and its implications for current flow.
On the other hand, when resistors are in parallel, their total resistance decreases compared to the individual resistances. We unravel the methods to compute the total resistance in a parallel circuit and examine how it influences the overall circuit behavior.
By illustrating real-world examples and practical applications, we elucidate the significance of series and parallel resistor configurations in circuit design and analysis. Whether you're a student grappling with electrical engineering concepts or an enthusiast looking to deepen your understanding of circuitry, this video serves as a comprehensive guide to navigating resistors in series and parallel arrangements.
Join us as we demystify the complexities of resistor configurations, empowering you to tackle more intricate circuit designs with confidence and proficiency. Let's embark on this enlightening journey into the world of electrical circuits!
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Very informative video. I love how the circuit can be simplified using the parallel->series reduction method. BTW, I don't care what order my comment is in lol.
Thank God for this guy
Enjoyed watching your explanation! Thank you!
Devide and sum so cool
thank you sir ❤
If I add a second resistor (R2) to a circuit, parallel to another resistor (R1), what happens to the total current of the circuit ?
first✌️😎
No one cares
Why do all of these videos use conventional current flow? Current flows from negative to positive in a DC circuit.
That’s how it is done in electrical engineering.
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First comment
Nice 👍