Faulty electricity homework question?

Click For Summary
SUMMARY

The forum discussion revolves around a homework question involving the I-V characteristics of a diode and a resistor in a circuit. The user, Stephen, initially calculates the current through a parallel configuration but later realizes it is a series configuration. The correct current flowing through the circuit at 4.0 V is determined to be 400 mA, as both components must be analyzed together to find the voltage at which they share the same current. The confusion stems from the misinterpretation of the circuit configuration and the application of Ohm's law.

PREREQUISITES
  • Understanding of I-V characteristics of diodes and resistors
  • Proficiency in applying Ohm's Law (V=IR)
  • Knowledge of circuit configurations (series vs. parallel)
  • Ability to analyze graphical data for electrical components
NEXT STEPS
  • Study the differences between series and parallel circuits
  • Learn how to superimpose I-V characteristic graphs for analysis
  • Explore the behavior of diodes under varying voltage conditions
  • Practice solving circuit problems involving mixed configurations
USEFUL FOR

Students studying electrical engineering, educators teaching circuit analysis, and anyone interested in understanding the behavior of diodes and resistors in circuits.

z.js
Messages
57
Reaction score
0
Hi,
Hoping someone will be able to help me out with a electricity homework question that sounds a bit unreasonable to me.

Homework Statement



Question 8 (Read the section after Q4 first!)

The I-V characteristics of a diode and a resistor to be used in a simple circuit with a varaible voltage power supply are shown in the graphs.

I have a linear graph for the resistor for which I = 200mA at V = 1 V
I have a graph for the diode for which I = 0 mA at V = 0, I = 20 mA at V = 1, I about 1000mA at V = 2 ... At V = 1.8, the graph is near-vertical.

The question:
The diode and resistor are placed in parallel and a variable voltage applied to them.
a. If a voltage of 4.0 V is applied to the combination, what current will flow through them both?

Homework Equations



Ohm's law, V=IR. Applicable always to Ohmic devices, and applicable to non-Ohmic devices only for constant V or I (R is always changing).

The Attempt at a Solution



If I extrapolate the graph of the I-V characteristic for the diode to V=4, the gradient approaches infinity. Thus the resistance of the diode approaches zero. (R = 1/gradient). Since V = IR, the voltage drop across the diode also approaches zero.

Therefore the effective resistance of the diode-resistor series pair is equal to the resistance of the resistor, 5 ohm.

At 4.0V, I = V/R = 4V/5Ohm = 0.8A = 800mA.

However, the answer states 400mA.

I have attached a photo of the page with the graphs.
If my working is wrong, I would really like to know where I went wrong!
Thanks!
Stephen
 

Attachments

  • IMGP0001.jpg
    IMGP0001.jpg
    11.8 KB · Views: 443
Last edited:
Physics news on Phys.org
If I extrapolate the graph of the I-V characteristic for the diode to V=4, the gradient approaches infinity. Thus the resistance of the diode approaches zero.
Correct so far.

(R = 1/gradient). Since V = IR, the voltage drop across the diode also approaches zero.
Not correct.

Therefore the effective resistance of the diode-resistor series pair is equal to the resistance of the resistor, 5 ohm.
Not correct.

The resister and diode are in parallel.
You described a situation where the diode is conducting - therefore it can be replaced by a short circuit.
 
Is the connection parallel or series?
 
From post #1: explicit problem statement:
The question:
The diode and resistor are placed in parallel and a variable voltage applied to them.
... mind you, could be a typo.
 
Simon Bridge said:
From post #1: explicit problem statement:

... mind you, could be a typo.

I think it is a typo. that's why I asked.
 
dauto said:
I think it is a typo. that's why I asked.
The question asks:
what current will flow through them both?
That implies it's in series. If in parallel, it should say through "the combination", or somesuch.
 
Sorry... it was a typo. The diode and resistor are in series, not parallel.
@Simon Bridge:
"(R = 1/gradient). Since V = IR, the voltage drop across the diode also approaches zero."
You said this was incorrect... could you elaborate on that?
"Therefore the effective resistance of the diode-resistor series pair is equal to the resistance of the resistor, 5 ohm."
Is this still wrong?
 
z.js said:
Sorry... it was a typo. The diode and resistor are in series, not parallel.
@Simon Bridge:
"(R = 1/gradient). Since V = IR, the voltage drop across the diode also approaches zero."
You said this was incorrect... could you elaborate on that?
"Therefore the effective resistance of the diode-resistor series pair is equal to the resistance of the resistor, 5 ohm."
Is this still wrong?

The total drop across the pair is 4V, but you do not know how that is distributed.
Can you think of a way of superimposing the two graphs to represent this?
 
  • Like
Likes   Reactions: 1 person
Well, in series, the current is constant across the circuit. So if I can find V for which both graphs have the same I, I guess that would be it... something to chew on... looks like I = 400mA for which both V are approximately equal to 2V!

Thanks guys!
 
  • #10
z.js said:
Well, in series, the current is constant across the circuit. So if I can find V for which both graphs have the same I, I guess that would be it... something to chew on... looks like I = 400mA for which both V are approximately equal to 2V!

Thanks guys!
Yes, that looks about right. But I ask again, can you think of a way of superimposing the graphs that would allow you to read the answer straight off?
 

Similar threads

Need help with a question on potential difference
  • · Replies 7 ·
Replies
7
Views
2K
A circuit involving two non-linear resistances (incandescent lamps)
  • · Replies 14 ·
Replies
14
Views
2K
What Is the Ideal Resistor Value for a Diode Circuit Using Load-Line Analysis?
  • · Replies 3 ·
Replies
3
Views
3K
Resistance of a non-ohmic device from its I/V graph
  • · Replies 10 ·
Replies
10
Views
4K
Was there a mistake in our final exam question about resistance?
  • · Replies 30 ·
2
Replies
30
Views
3K
Understanding Resistance and Current in Ohmic and Non-Ohmic Components
  • · Replies 2 ·
Replies
2
Views
2K
Find current and PD across a circuit with diodes
  • · Replies 13 ·
Replies
13
Views
3K
How Do You Compare Resistance in a Carbon Resistor and an LED Using a V-I Graph?
  • · Replies 3 ·
Replies
3
Views
13K
Using a multimeter as an ammeter
  • · Replies 31 ·
2
Replies
31
Views
6K
How to find the power consumed by the light bulb
  • · Replies 19 ·
Replies
19
Views
3K