Can't understand my books diagram?

  • Thread starter Thread starter Rijad Hadzic
  • Start date Start date
  • Tags Tags
    Books Diagram
Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
3 replies · 2K views
Rijad Hadzic
Messages
321
Reaction score
20

Homework Statement


This isn't a problem. I need help understanding a diagram and graphs from my book

Homework Equations

The Attempt at a Solution


So I'm given a diagram on an AC circuit and a resistor.

I am then given a graph of the potential of the resistor as a function of time, and then a graph of the current as a function of time.

Why does my book have the amplitude of the current higher than the potential? It makes no sense to me. The only case that the current will be larger than the potential is if 0<R<1 but it doesn't mention the value of R at all.

The section right after this is phasor diagrams and I don't think I will be able to understand this section enough if I am not even able to understand the graphs. Can someone please help me understand this..
 

Attachments

  • network-security.jpg
    network-security.jpg
    36.9 KB · Views: 505
  • 41a28A84XhL._SX422_BO1,204,203,200_.jpg
    41a28A84XhL._SX422_BO1,204,203,200_.jpg
    23.9 KB · Views: 491
on Phys.org
Apologies I wasn't able to upload the whole thing. This post should have all the graphs.
 

Attachments

  • DG2Nyqh.jpg
    DG2Nyqh.jpg
    28.5 KB · Views: 484
As the axes have no units, you can't say that the amplitude of the current is higher than that of the potential. Even though the green arrow is longer than the red one, in the absence of a scale this means nothing (because I and V have different units). The graphs are not trying to be quantitative; they are just illustrating the general situation, i.e. that V and I both vary sinusoidally and in phase with each other.
 
mjc123 said:
As the axes have no units, you can't say that the amplitude of the current is higher than that of the potential. Even though the green arrow is longer than the red one, in the absence of a scale this means nothing (because I and V have different units). The graphs are not trying to be quantitative; they are just illustrating the general situation, i.e. that V and I both vary sinusoidally and in phase with each other.

Damn that makes sense. damn can't believe I couldn't figure that out myself smh man.. thank you though.