What is the maximum safe current and voltage for a 140 ohms, 1/2 watt resistor?

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Discussion Overview

The discussion revolves around determining the maximum safe current and voltage for a 140 ohm, 1/2 watt resistor. Participants explore the relationships between resistance, current, voltage, and power, addressing both theoretical calculations and practical implications.

Discussion Character

  • Technical explanation
  • Mathematical reasoning
  • Homework-related
  • Debate/contested

Main Points Raised

  • One participant expresses difficulty in finding the formula to calculate the maximum current and voltage for the resistor.
  • Another participant suggests using the relationships between ohms, amps, volts, and watts to solve the problem.
  • A participant calculates the maximum current using the formula P = I^2 * R, arriving at approximately 59.7 mA.
  • There is a question about the term "e.m.f." and its relation to voltage, with one participant expressing confusion over its usage.
  • Another participant clarifies that e.m.f. stands for electromotive force, which is equivalent to voltage, and provides formulas to calculate the maximum voltage using P = V^2 / R.
  • A calculation is presented showing that the maximum voltage is approximately 8.366V, with a note on the practical margin for resistor ratings.
  • One participant emphasizes the importance of verifying calculations to ensure accuracy, especially when deriving voltage from current.
  • Another participant comments on the terminology, noting that "electromotive force" is being phased out in favor of "voltage."

Areas of Agreement / Disagreement

Participants generally agree on the formulas to use for calculating current and voltage, but there is some confusion regarding the terminology of e.m.f. and its equivalence to voltage. The discussion remains unresolved regarding the best approach to clarify these terms.

Contextual Notes

Some participants express uncertainty about the definitions and implications of e.m.f. versus voltage, indicating a potential gap in understanding that may affect their calculations.

Bobzombie
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have looked thought all my notes and books and can not find the formal on how to do this question. I'm slowly going out of my mind any help would be great

Calculate the maximum current a 140 ohms, 1/2 watt resistor can have flowing through it safely.
Enter answer: mA

Then the 2nd part of the question is

What is the maximum e.m.f. which may be applied to the resistor above without causing overheating?

Enter Part 2 answer: V
 
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Do you know the relationship between ohms, amps, volts and watts? If so, using the formulas you can get it.
 
re

P = I^2 * R

I = sqrt(P/R) = sqrt(0.5/140) = 59.7 mA
 
emf? I have not encounter this question before :confused:
 
I have a question almost 100% identical to this one...
I know the first part, but is part two simply E=IR ??

I just have never seen e.m.f. being used to refer to voltage... and can't find any help anywhere on it
 
emf stands for electromotive force. Same thing as voltage.

In the first part it tells you what is the watt rating of the resistor. Power is determined by P = I^2 *R or P= V^2 / R or V=I*R.

If you have the value of the resistor and the watt rating you can easily figure out the answer.

PART 2: V or E is the variable to be found. Since we only have P and R let us use the relationship P = V^2 / R
0.5W = V^2/ 140 ohms

if the watt rating of a resistor is 0.5W that means the resistor will only be able to handle so much power until it burns out. So let us complete this problem.
sqroot(0.5W*140 ohms) = V or E
V or E = 8.366V

So if you apply 8.366V, you are on the border line of the max voltage the resistor can take.( in reality a resistor's watt rating is given a 10-20% margin I believe).
If you divide 8.366V by 140 ohms you get 59.76 mA which the maximum current the resistor can handle. How do you know this is the max current? well use P=V*I to check.
 
thanks a lot for you help ^_^

I only asked if I should use E = IR because the first part is calculating current, and once you have that voltage is easy

just wish my textbook/teacher had told me that electromotive force is the same thing as voltage, haha
 
True, you can use the current you calculated. But if you made a mistake in getting the current, the error would carry on.

Always recheck your values to see if they satisfy the equations.
 
Maeode said:
thanks a lot for you help ^_^

I only asked if I should use E = IR because the first part is calculating current, and once you have that voltage is easy

just wish my textbook/teacher had told me that electromotive force is the same thing as voltage, haha

They're trying to phase out the term. Voltage isn't a force so EMF is a misnomer.
 

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