Doppler Frequency Equation Question

  • Thread starter Thread starter Nathan777
  • Start date Start date
  • Tags Tags
    Doppler Frequency
AI Thread Summary
The discussion centers on the Doppler frequency equation for a moving observer, specifically the algebraic manipulation leading to the final form f' = (1 + u/v)f. The initial equation f' = v'/λ is correctly transformed by substituting λ with v/f, resulting in f' = (v + u)/(v/f). The crucial step involves recognizing that (v + u)/v simplifies to 1 + u/v, which is essential for understanding the algebraic factoring. Clarification is provided that the dimensions must match when performing these operations, emphasizing the importance of proper notation and unit consistency in physics equations. This explanation highlights the necessary steps to arrive at the final equation correctly.
Nathan777
Messages
4
Reaction score
0
In my physics books it gives an equation of frequency for a moving observer as

f'= v'/λ =v+u/λ. Since λ=v/f it was converted to f'=v+u/(v/f) = (v+u/v)f

I understand this much of the equation, but the final Algebraic factoring that I don't get is they said this equation is f'= (1+u/v)f

I just don't get how v+u/v was changed to 1+u/v.

Any explanation here would be helpful.

Thanks.
 
Physics news on Phys.org
Hi Nathan777! :smile:

You've left out the brackets! :rolleyes:

(Also, your dimensions obviously don't match: you can't add things of different dimensions, ie different units, eg you can't add a v to a u/λ. :wink:)

It should be written …

f'= v'/λ =(v+u)/λ. Since λ=v/f it was converted to f'=(v+u)/(v/f) = ((v+u)/v)f = (1 + u/v)f​
 
Thread 'Inducing EMF Through a Coil: Understanding Flux'

Thread 'Inducing EMF Through a Coil: Understanding Flux'

Thank you for reading my post. I can understand why a change in magnetic flux through a conducting surface would induce an emf, but how does this work when inducing an emf through a coil? How does the flux through the empty space between the wires have an effect on the electrons in the wire itself? In the image below is a coil with a magnetic field going through the space between the wires but not necessarily through the wires themselves. Thank you.
View full post »
Thread 'Griffith, Electrodynamics, 4th Edition, Example 4.8. (Second part)'

Thread 'Griffith, Electrodynamics, 4th Edition, Example 4.8. (Second part)'

I am reading the Griffith, Electrodynamics book, 4th edition, Example 4.8. I want to understand some issues more correctly. It's a little bit difficult to understand now. > Example 4.8. Suppose the entire region below the plane ##z=0## in Fig. 4.28 is filled with uniform linear dielectric material of susceptibility ##\chi_e##. Calculate the force on a point charge ##q## situated a distance ##d## above the origin. In the page 196, in the first paragraph, the author argues as follows ...
View full post »

Similar threads

Change in Frequency/Wavelength in Doppler Effect
Replies
2
Views
2K
Calculating the frequency of a free electron
Replies
1
Views
3K
I Guiding center motion of charged particles in EM field
Replies
0
Views
1K
Range of frequency heard by observer related to Doppler effect
Replies
8
Views
1K
I Deriving Doppler Effect Frequency w/ Stationary Person & Moving Source
Replies
3
Views
1K
B How can scalars like voltage, impedance, etc. be added like vectors?
Replies
17
Views
2K
Fundamental frequency of a rectangular-cavity whistle
Replies
1
Views
2K
I Numerical calculations of a railgun yielded disappointing results
Replies
4
Views
994
Focal length of the eyepiece lens in a compound microscope
Replies
7
Views
1K
Frequency in Maxwell's equations
Replies
19
Views
2K

Hot Threads

Recent Insights

Back
Top