Simple question about current draw

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The discussion centers on the application of Ohm's Law in understanding current draw in electrical circuits, particularly when comparing resistors and motors. A circuit powered by 10V with a 1 Ohm resistor will draw 10A, but when using a motor, the resistance changes, affecting current flow. Larger motors require more current to operate, which can lead to confusion regarding their resistance compared to smaller motors. It's clarified that a higher power motor at the same voltage will have lower resistance, while a lower power motor will have higher resistance. Understanding these relationships helps in grasping how power supplies must be capable of providing the necessary current for different loads.
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Hello,

I've been working with some electrical stuff at my internship lately, but I don't have any real background in it, so I've been trying to learn what I can from the internet. One thing that I don't get involves Ohms law:

If I have a circuit powered by 10V with just a 1 Ohm resistor, the current flow will be 10A (I think). If that resistor is replaced by a motor, which would have a much larger resistance, the current flow will drop according to I=V/R. But common sense tells me that a larger motor would need more current for it to run. I'm sure I'm confusing the concepts. Basically, I can't mesh the idea that current draw will be higher to power larger motors and the idea that I=V/R.

I hope that makes sense, any response would really be appreciated, thanks!
 
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I guess I'm not really clear what your issue is. Ohms law is it.

If you maintain a 10v supply (capable of supplying whatever current is needed) and you have a 1 ohm resister load then you get 1 amp of current and if you increase the resistance then you get less current and if you decrease the resistance you get more current.

A 10V DC motor generating 100Watts would need 10 amps (and so by implication would have a 1/10 ohm resistance.

It is possible to have a DC power supply that generates 1am with no problem but just can't hack 10amps, so with a given input voltage, stronger motors require a power supply that can drive more load.
 
If I have a circuit powered by 10V with just a 1 Ohm resistor, the current flow will be 10A (I think)

In a theoretical diagram this is the case.

In a real world application a voltage source will have a current supply limit. If you find a lab power supply, most of them have the ability to be current limited, so if you set the limit to 1A and then tried to put 10V across a 1R resister, the supply would hit 1A and the voltage will drop back according to Ohms Law to 1V.
 
Thanks a lot, that actually did answer my poorly phrased question. I had it in my head that a larger motor that had a higher rated power must have a higher resistance than a lower power motor, which was why I was confused because that wouldn't make sense with Ohm's Law. I didn't realize that a lower power motor would have a higher resistance. So a:

10 V, 100 W motor needs 10A and has 1 Ohm of resistance

while at 10 V, a 10 W motor needs 1 A and is 10 Ohms?
 
kickflipper11 said:
while at 10 V, a 10 W motor needs 1 A and is 10 Ohms?

you got it
 
Ok, I'm glad you cleared that up, thanks a lot it was really buggin me.
 

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