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Rejected.
This suggested edit was rejected almost 3 years ago by Olin Lathrop‭:

Rejecting gratuitous use of MathJax. The existing HTML is perfectly readable, and even looks nicer.

0 / 255
  • No, the answer can be seen by inspection in a few seconds, and it's not 2.8667. We don't just give answers to homework problems here, so I'll only make a few comments on the problem and your attempted solution:<ol>
  • <li>While this is on topic here, you would probably get better response on the Electrical Engineering site.
  • <li>This question should be in the <b>Problems</b> category, not here in the <b>Q&A</b> category. There is no excuse, since you were clearly told that when you explicitly asked about it <a href="https://physics.codidact.com/posts/281629">here</a>.
  • <li>You never actually stated what the problem is. It seems you want to find the equivalent resistance between the two connections to the circuit? This should be stated explicitly.
  • <li>Always show component designators. This may be less of an offense here, but over on EE this is not tolerated. Copying the circuit from someplace else is no excuse. <i>You</i> are responsible for what <i>you</i> post here. Add component designators or redraw the circuit altogether. It doesn't matter how you achieve this, only that you do.
  • <li>It should be immediately obvious that 2.8667 can't possibly be right when the problem is asking for a resistance, since resistance isn't dimensionless. Units matter. If I was marking this, you'd lose points for sloppiness with units.
  • <li>Not quite as bad as above, but in most cases there should be a space between the value and its unit. For example "0.5 &Omega;" is correct, "0.5&Omega;" is not. NIST has a good <a href="https://physics.nist.gov/cuu/pdf/sp811.pdf">publication</a> on all this stuff.
  • <li>Instead of mechanically following some recipe, stop and actually think about this circuit. In particular, note the symmetry between the top and bottom legs. That allows for some simplification.
  • <li>If you applied a known voltage across this circuit and the 4 &Omega; resistor wasn't there, what would be the voltage between the two resistors of each leg? What current flows thru the 4 &Omega; resistor?
  • </ol>
  • <hr>
  • <blockquote>In my other post I had added main question. I forgot to add it here.</blockquote>
  • So fix it. Trying to excuse it instead of fixing it is a waste of everyone's time. We don't care why, only what is.
  • <blockquote>In MathJax it is not possible to give spaces between any units and numbers</blockquote>
  • I find that hard to believe. I don't know much about MathJax, but surely there is a way to insert a hard space.
  • <blockquote><i>What current flows thru the 4 Ω resistor?</i> I don't have the value.</blockquote>
  • The point was to make you think about the circuit, not the actual numbers.
  • Try this exercise: Consider what happens when the left end of this circuit is held at 0 V and the right end at 5 V. If the 4 &Omega; resistor weren't there, what voltage results at each of the two junctions between the resistors? What voltage is therefore across where the 4 &Omega; resistor would be? You can convert this to a Thevenin voltage source. What current would flow thru the 4 &Omega; resistor if it were then connected as the circuit is actually shown?
  • No, the answer can be seen by inspection in a few seconds, and it's not 2.8667. We don't just give answers to homework problems here, so I'll only make a few comments on the problem and your attempted solution:<ol>
  • <li>While this is on topic here, you would probably get better response on the Electrical Engineering site.
  • <li>This question should be in the <b>Problems</b> category, not here in the <b>Q&A</b> category. There is no excuse, since you were clearly told that when you explicitly asked about it <a href="https://physics.codidact.com/posts/281629">here</a>.
  • <li>You never actually stated what the problem is. It seems you want to find the equivalent resistance between the two connections to the circuit? This should be stated explicitly.
  • <li>Always show component designators. This may be less of an offense here, but over on EE this is not tolerated. Copying the circuit from someplace else is no excuse. <i>You</i> are responsible for what <i>you</i> post here. Add component designators or redraw the circuit altogether. It doesn't matter how you achieve this, only that you do.
  • <li>It should be immediately obvious that 2.8667 can't possibly be right when the problem is asking for a resistance, since resistance isn't dimensionless. Units matter. If I was marking this, you'd lose points for sloppiness with units.
  • <li>Not quite as bad as above, but in most cases there should be a space between the value and its unit. For example "0.5 &Omega;" is correct, "$0.5\Omega$;" is not. NIST has a good publication on all this stuff. Maybe if I have time later I'll dig it out and link to it.
  • <li>Instead of mechanically following some recipe, stop and actually think about this circuit. In particular, note the symmetry between the top and bottom legs. That allows for some simplification.
  • <li>If you applied a known voltage across this circuit and the $4 \Omega$; resistor wasn't there, what would be the voltage between the two resistors of each leg? What current flows thru the $4 \Omega$; resistor?
  • </ol>

Suggested almost 3 years ago by deleted user