Does electricity passing through resistance decrease potential?

In summary, when charges pass through a resistance, the potential generally decreases in magnitude. This is because the charges are dissipating energy as they go through the resistor. The potential energy is converted into other forms of energy, such as heat. The analogy of water flowing through a series of water wheels can help understand this concept, but it should be noted that the situation is not exactly the same. Without the resistor, the potential energy would remain as kinetic energy. However, the potential would still drop on the way. Ultimately, the potential energy comes from the source, such as a battery or generator, and is used up as the charges travel through the circuit.
  • #1
DriggyBoy
19
0
Does the potential decrease when it charges(electricity) pass through a resistance?
Newbie here...please help :)
 
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  • #2
Generally, yes, but much depends on how the potential is created in the first place. You may want to describe the situation that you have in mind.
 
  • #3
No actually, current flows from higher potential to lower potential...so when the current reaches the resistance it is at a higher potential & whn it leaves, potential decreases...
Now in the book the dirn of current is considered oppo...that is from lower to higher potential...in this case potential increases after charges pass thru the resistance...
***
Am I right?
 
  • #4
I misunderstood your question and did not, myself, use correct terminology.

When charges are moved by a potential difference, the potential difference generally decreases in magnitude.

The potentials in a potential difference can become lower or greater in this process.
 
  • #5
DriggyBoy said:
Does the potential decrease when it charges(electricity) pass through a resistance?
Newbie here...please help :)

Energy will always end up somewhere and you don't get any from nowhere. The charges are dissipating energy as they go through a resistor (a resistor will get hot, if enough power is dissipated). That energy comes from the lost electrical potential as they move through the circuit. Charges that 'creep into' the negative terminal of the battery have none left (using the convention that the negative terminal is at Zero Potential.) The battery (generator) gives new charges, coming from the positive terminal, more potential.

Be careful using water analogies but you could look at the situation in a chain of resistors as being like a series of water wheels, down a hill, fed with water at the top, with the full gravitational potential energy. Each water wheel takes its share of the gravitational potential energy and the water emerging from the bottom wheel flows very slowly out into the drain, having lost its potential energy in stages.
 
  • #6
sophiecentaur said:
Be careful using water analogies but you could look at the situation in a chain of resistors as being like a series of water wheels, down a hill, fed with water at the top, with the full gravitational potential energy. Each water wheel takes its share of the gravitational potential energy and the water emerging from the bottom wheel flows very slowly out into the drain, having lost its potential energy in stages.
But the potential is equal at equal heights whether the wheels are there or not, right?
 
  • #7
ElmorshedyDr said:
But the potential is equal at equal heights whether the wheels are there or not, right?


Potential energy would be mgh. Without the wheels to take the energy off, the falling water would go faster and faster ( kinetic energy) and the analogy falls down. The charges / resistors are like the water / wheels. Without the resistors - say you had electrons through a vacuum, they would acquire all the Potential Enery as Kinetic. A different situation but, if course, Potential would still drop on the way.
Electrical Energy is QV.
 

FAQ: Does electricity passing through resistance decrease potential?

What is potential?

Potential refers to the amount of energy that an object or system has stored within it. It is often used to describe the ability of an object to do work or produce an effect.

What is resistance?

Resistance is a measurement of how much an object or substance opposes the flow of electric current. It is typically measured in units called ohms (Ω).

How are potential and resistance related?

According to Ohm's Law, the potential difference (voltage) between two points in a circuit is directly proportional to the amount of current flowing through the circuit and inversely proportional to the resistance of the circuit.

What factors affect potential and resistance?

The potential of an object or system can be affected by its mass, height, and position in relation to other objects with a different potential. Resistance, on the other hand, can be affected by the material, temperature, and length of a conductor.

Why are potential and resistance important in science?

Potential and resistance are important concepts in many fields of science, including physics, chemistry, and biology. They help us understand and predict the behavior of electricity, heat, and other forms of energy in various systems. They are also fundamental to the functioning of many technological devices and systems.

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