Explain to me what resistors do?

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Discussion Overview

The discussion centers around the function and applications of resistors in electrical circuits. Participants explore various roles resistors play, including their use in heating elements and voltage regulation, among other applications.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • Some participants propose that resistors resist the flow of electrical current and produce heat, citing applications in water heaters and toasters.
  • Others argue that resistors are also used to adjust amplifier gain, drive capacitive loads, and manage time constants, indicating a broader functionality beyond just heat production.
  • A participant challenges the notion that resistors are only used in circuits that produce heat, emphasizing their role in creating voltage differences necessary for circuit function.
  • One participant explains Ohm's Law, suggesting that changing the value of a resistor can control voltage or current in a circuit.
  • An example is provided where a resistor is used to prevent a light bulb from burning out by dropping the voltage to a safe level, illustrating the practical application of resistors in protecting components.
  • A later reply introduces a more detailed explanation of how resistors interact with electrons and energy conversion in circuits.

Areas of Agreement / Disagreement

Participants express differing views on the primary functions of resistors, with some emphasizing heat production and others highlighting their role in voltage regulation and circuit functionality. The discussion remains unresolved regarding the extent of resistors' applications.

Contextual Notes

Some claims about the specific roles of resistors may depend on context and definitions, and there are unresolved aspects regarding the relationship between heat production and other functions of resistors.

Maxwell
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Can someone please explain to me what resistors do? And why we use them.

Thank you.
 
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They resist the flow of electrical current, producing heat. We use them for many reasons; water heaters, electric stoves, and toaster ovens actually use resistors specifically to create heat. Resistors are also (speaking loosely) used to keep electricity from going where it is not wanted in a circuit.

- Warren
 
Resistors are also used to adjust the gain of an amplifier, help drive capacitive loads, adjust time constants, etc.
 
So basically you'd really only use a resistor in a circuit that will produce heat, or need to build up heat?

Examples - Toaster, Oven, Gain on an amplifier.

Is that right, for a basic definition/function?
 
No, it's not. That's why I provided examples that do not do this.

Amplifier gain is a ratio of voltages, and has little connection to heat. Besides dissipating electrostatic energy in the form of heat, resistors provide a potential (voltage) difference across their ends. Having the right voltages at different parts of a circuit requires the use of resistors.
 
Maxwell - look up ohms law online.

Basically, its this simple equation:

voltage = current * resistance

Since those are all linked by that equation, if a person wanted to control voltage or current you can change the value of a resistor.

Cliff
 
Imagine a light bulb, it is connected to a 9 volt battery, but the light bulb is only rated for 2.5 volts. If I connected the batter straight to the bulb, it would flash, and burn out. To prevent this, I would connect a resistor in the circuit, it would restist the flow of current, and cause a voltage drop. This resistor would be the exact value, so it would bring the voltage down to 2.5, and that would propperly light the bulb. Electrons from a power source are constantly colliding with atoms in the wire or load. This makes the atom positivly charged, so it ejects another electron. The resistance determines how much energy the ejected electron has. As the electron collides with the atom, some of the energy is converted into heat (vibrational) energy. The resistance of the molecules determines how much energy is converted back into kinetic energy for the ejected electron. Some energy is also converted into light energy, this is purposely used in light bulbs, making light bulbs resistors.
 
may i ask u , how old are u ? (maxwell )
your id is graet name but your question ?
excuse me for this question !
 

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