What Current Flows in a Coil at 230V, 50Hz?

AI Thread Summary
To determine the current in a coil connected to a 230V, 50Hz supply, one must first analyze the coil's resistance and inductance based on given values. When a 2A direct current results in a 20V drop, it indicates the presence of resistance in addition to inductance. The alternating current of 2A at 40Hz producing a 140V drop suggests a relationship between resistance, inductance, and frequency that needs to be explored. The discussion emphasizes the importance of understanding these relationships rather than merely applying formulas. A comprehensive approach is necessary to solve for both the current and the phase shift in the coil.
IronaSona
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Homework Statement
.
Relevant Equations
XL =2p x f x L.
Hello, am kind of new to all the physics stuff , and kind a terrible at maths but am trying my best to be good at it one day .So i was told to answer this question

When a direct current of 2A is passed through a coil, the potential difference across the coil is 20V. When an alternating current of 2A at a frequency of 40Hz is passed through the coil, the potential difference across the coil is 140V.

a) Find the current in the coil if it is connected to a supply of 230V, 50Hz.

but i don't even know where i need to start ? do i need to find the coil inductances first and then do:
2 = a constant (2 x 3.1416 = 6.28)
6.28*hz*henries= ... Ohms

240V/...Ohms= ...Amps?

is that right ?and for (b) i got no idea how to do that

b) What is the phase shift of the current in the coil with respect to the supply voltage?
 
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Rather than guessing and plugging numbers into formulas, you need to see the big picture and formulate a strategy. So first, what is the significance of what the sentence below is telling you?
IronaSona said:
When a direct current of 2A is passed through a coil, the potential difference across the coil is 20V.
 
vela said:
Rather than guessing and plugging numbers into formulas, you need to see the big picture and formulate a strategy. So first, what is the significance of what the sentence below is telling you?
voltage across the coil is 20V?
 
That's what the sentence literally says, but what does it mean? Why does the DC current produce a voltage drop across the coil?
 
vela said:
That's what the sentence literally says, but what does it mean? Why does the DC current produce a voltage drop across the coil?
because there's a resistance
 
OK, good, so the coil isn't simply an inductor but an inductor ##L## and a resistor ##R##.

The second sentence says
When an alternating current of 2A at a frequency of 40Hz is passed through the coil, the potential difference across the coil is 140V.
What's the relationship between those two quantities in terms of ##R##, ##L##, and frequency ##f##? Rather than using numbers, just call them ##I## and ##V## for now.
 
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