- #1
yakabod
What is the shortcut on solving problems that deal with ohms law?
What Is the Shortcut for Solving Ohm's Law Problems Using P=IE?
Click For Summary
Homework Help Overview
The discussion revolves around Ohm's Law and its application in solving problems related to electrical circuits, specifically focusing on the relationship between power, voltage, and current.
Discussion Character
- Exploratory, Conceptual clarification, Mathematical reasoning
Approaches and Questions Raised
- Participants explore various methods for solving Ohm's Law problems, including the use of a pyramid diagram to visualize relationships between voltage, current, and resistance. Questions are raised about finding shortcuts and alternative formulas, particularly in the context of calculating current from power and voltage.
Discussion Status
Some participants provide guidance on understanding the relationships between electrical quantities, while others question the need for simpler methods. The discussion includes attempts to clarify the meaning of watts and its relation to current and voltage.
Contextual Notes
There is mention of specific homework constraints, such as the requirement to avoid directly providing formulas and the emphasis on understanding basic units in electrical calculations.
- #2
quantumdude
Staff Emeritus
Science Advisor
Gold Member
- 5,564
- 24
You'll have to be more specific.
- #3
Dx
E
------
I | R
Here is a pyramid so if you want to solve for eg; E = IR. Just cover up what you want to solve for and the remaining letters left are your formulas. Another eg; I = E/R. Is that what you mean, sir? Does that help?
Dx
------
I | R
Here is a pyramid so if you want to solve for eg; E = IR. Just cover up what you want to solve for and the remaining letters left are your formulas. Another eg; I = E/R. Is that what you mean, sir? Does that help?
Dx
Last edited by a moderator:
- #4
yakabod
ok well i have problems here that I am done with already. dealing with the calculating the current.
used these kind of formulas:
resistance = voltage/current
and
current = voltage/resistance
now i was asking if there was easier shortcuts on solving these.
now looking at the last problem i am stuck. instead of asking for ohms or amps it asked find the current of a watt.
now my question is how to solve that with a diffrent formula? what formula is this?
used these kind of formulas:
resistance = voltage/current
and
current = voltage/resistance
now i was asking if there was easier shortcuts on solving these.
now looking at the last problem i am stuck. instead of asking for ohms or amps it asked find the current of a watt.
Code:
calculate the current in a 140-w electric blanket connected to a 120-v outletnow my question is how to solve that with a diffrent formula? what formula is this?
- #5
quantumdude
Staff Emeritus
Science Advisor
Gold Member
- 5,564
- 24
That's not short enough for you? [?]
You need to learn basic units, and you need to start reading your book. I am not going to tell you the formula, because that gives away the whole thing. I am going to ask you a couple of questions that will lead you to the answer.
1. What quantity is measured in Watts?
2. Is there a formula in your book that relates the quantity in #1 to current (answer: YES, there is).
- #6
Adam
- 65
- 1
Ohm's Law:
The pyramid is "V" on top, with "I" and "R" on the bottom. It can be expressed as three complimentary equations:
1) Voltage = Current * Resistance.
2) Current = Voltage / Resistance.
3) Resistance = Voltage / Current.
Any time you have two of the factors from one side of the equation, you will know the third factor (the other side). In your question "calculate the current in a 140-w electric blanket connected to a 120-v outlet"[/color], you have Watts and voltage.
Now you need to figure out what the "Watts" means. Watts is volts*amps. Again, you can draw a pyramid to help remember it all. Put Watts at the top, and across the bottom you have volts and amps (amps being current). Again, this allows three expressions:
1) Watts = Voltage * Current.
2) Current = Watts / Voltage.
3) Voltage = Watts / Current.
Now, Watts is voltage*amps. Since you know the Watts and voltage, you can divide Watts by voltage to get current. 140/120 = 1.15 Amps, roughly.
Now you have two factors necessary for working with Ohm's Law. You have the voltage (120) and the current (1.15).
The short version:
Watts = voltage*amps.
You've got voltage and watts: watts (140) = volts (120) * ?.
So, by re-arranging the factors you can get: ? = watts (140) / voltage (120).
Simply fill in the "?".
The pyramid is "V" on top, with "I" and "R" on the bottom. It can be expressed as three complimentary equations:
1) Voltage = Current * Resistance.
2) Current = Voltage / Resistance.
3) Resistance = Voltage / Current.
Any time you have two of the factors from one side of the equation, you will know the third factor (the other side). In your question "calculate the current in a 140-w electric blanket connected to a 120-v outlet"[/color], you have Watts and voltage.
Now you need to figure out what the "Watts" means. Watts is volts*amps. Again, you can draw a pyramid to help remember it all. Put Watts at the top, and across the bottom you have volts and amps (amps being current). Again, this allows three expressions:
1) Watts = Voltage * Current.
2) Current = Watts / Voltage.
3) Voltage = Watts / Current.
Now, Watts is voltage*amps. Since you know the Watts and voltage, you can divide Watts by voltage to get current. 140/120 = 1.15 Amps, roughly.
Now you have two factors necessary for working with Ohm's Law. You have the voltage (120) and the current (1.15).
The short version:
Watts = voltage*amps.
You've got voltage and watts: watts (140) = volts (120) * ?.
So, by re-arranging the factors you can get: ? = watts (140) / voltage (120).
Simply fill in the "?".
Last edited:
- #7
Dx
remember P=IE, my friend.
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