Maximizing Power Delivery: Comparing 12,000V & 50,000V Electricity Transmission

AI Thread Summary
The discussion focuses on comparing power delivery efficiency at 12,000V and 50,000V for a power station delivering 620kW to a factory. Participants analyze how to calculate power loss due to resistance in the transmission wires, using the formula P = I^2 R. Initial calculations show significant power loss at both voltages, but there is confusion regarding the correct method to find current and power loss. The correct approach involves using the power generated and the source voltage to determine current, leading to a clarification that the power lost at 50,000V is significantly less than at 12,000V. Ultimately, the goal is to determine the difference in power wasted between the two voltage levels.
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A power station delivers 620kW of power at 12,000 V to a factory through wires with total resistance 3.0 ohms. How much less power is wasted if the electricity is delivered at 50,000V rather than 12,000V?

I cannot quite picture what is going on in this problem. Is this a series circuit, which has 2 resistors, one is the wire, and the other one is to dissipate the power?
 
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The power lost to heat in a wire is given by

P = I^2 R[/itex]<br /> <br /> Use Ohm&#039;s law to find how much current the wire carries at both 12 kV and 50 kV, then find how much power is lost to heat in the wire using that formula.<br /> <br /> - Warren
 
I still don't quite understand:
if I use ur method,
I first find the current through the wire (12kV): 12kV = I(3 ohms) = 4000A
and the power lost to heat: (4000)^2 * 3 = 4.8 * 10^7 W
And the current through the wire (50kV): 50kV = I (3ohms) = 16666.67A
and the power lost to heat: (16666.67)^2 * 3 = 8.3 * 10^8 W

The correct answer is 7500W, but if i substract these two numbers, they don's seem to give me the right answer
 
I understand what the question is asking for now.
Thx
 
The current is not found with that "R"...It is found using the power generated and the voltage on the source.

Daniel.
 

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