What is a wavefront? sine or cosine graph?

AI Thread Summary
A wavefront is defined as a surface connecting points of equal phase in a wave, which can take various shapes such as circles or spheres depending on the source. Huygens' principle states that every point on a wavefront can act as a source of new waves, propagating at the same speed. For instance, when a pebble is dropped in water, circular wavefronts emerge, while sound waves from a clap create spherical wavefronts. The wave itself can be represented as a sine or cosine curve, illustrating the oscillatory nature of the wave, but the wavefront is a distinct concept representing the leading edge of the wave's propagation. Understanding the difference between waveforms and wavefronts is crucial for grasping wave behavior in various mediums.
MIA6
Messages
231
Reaction score
0
What is a wavefront? Huygen's principle says that every point on a wavefront acts as a source of wave with the same speed. Now I am not asking you what that means, but i don't understand what a wavefront is. Is that like a circle? But wave is usually like a sine or cosine graph, so what's the relations between them. thanks.
 
Physics news on Phys.org
Think of each individual wave as looking like a sin curve.
A wavefront is a set of waves side by side.
Consider a boat going up and down in a harbour it makes individual waves that all travel out at the same speed, the wavefront is the perimeter of this expanding 'front' of waves.
Huygens principle says that when you are considering how any of the waves on the wavefront interact with anything else you don;t have to wory about how they were created or got there - you can think of the source of each wave beign on the wavefront.
 
MIA6 said:
What is a wavefront? Huygen's principle says that every point on a wavefront acts as a source of wave with the same speed. Now I am not asking you what that means, but i don't understand what a wavefront is. Is that like a circle? But wave is usually like a sine or cosine graph, so what's the relations between them. thanks.

Yes, if you drop a pebble in a pond... you get waves diverging out from the place where you drop the pebble... in all directions... or you can think of it as one 3-dimensional wave. If you connect the points that have the same phase, you'll get a circle in this case... that circle is a wavefront... In other cases the wavefront won't be a circle... sometimes it will be a sphere... for example light propagating from a point source... It's basically the surface you get when you connect points of the same phase...
 
mgb_phys said:
Think of each individual wave as looking like a sin curve.
A wavefront is a set of waves side by side.
Consider a boat going up and down in a harbour it makes individual waves that all travel out at the same speed, the wavefront is the perimeter of this expanding 'front' of waves.
Huygens principle says that when you are considering how any of the waves on the wavefront interact with anything else you don;t have to wory about how they were created or got there - you can think of the source of each wave beign on the wavefront.

What do you mean by expanding 'front' of waves? What does 'front' mean here? If I imagine that individual wave is like a sine curve, then they sort of connect together side by side and form a circle? That's the wavefront?
 
Yes exactly, although it's only a circle for waves coming from a point.
 
Do you know what a spherical wave is? Because in my book, when it talks about wavefront, it then also talks about spherical wave. So i don't know if they have any relations.
 
MIA6 said:
Do you know what a spherical wave is?

they are the one that are produced in water when you drop a stone in the water.

they have wavefronts but those wavefronts are circular.
 
the FRONT of a wave is the place
where the material is (first) disturbed
away from its equilibrium situation.
The disturbance ALWAYS propagates
perpendicular to the wave front.

*circular* wave fronts are 1-dimensional arcs
that move outward and cover a 2-d surface
. . . like water wave ripples.

*spherical* wave fronts are 2-d shells
in a 3-d volume ... sound from a hand-clap, for example.
 
rootX said:
they are the one that are produced in water when you drop a stone in the water.

they have wavefronts but those wavefronts are circular.

but are waves supposed to look like a sine or cosine curve, which is not like circular wave produced by dropping stone in water? Since when I interpret "spherical wave" literally, I imagine its shape is llike circular. Or you mean only wavefronts are circular not the wave itself? I get confused with how wave and wavefronts should look like.
 
  • #10
lightgrav said:
the FRONT of a wave is the place
where the material is (first) disturbed
away from its equilibrium situation.
The disturbance ALWAYS propagates
perpendicular to the wave front.

*circular* wave fronts are 1-dimensional arcs
that move outward and cover a 2-d surface
. . . like water wave ripples.

*spherical* wave fronts are 2-d shells
in a 3-d volume ... sound from a hand-clap, for example.

What do you mean by 1-dimensional? a line? wavefront is a part of wave?
 
  • #11
MIA6 said:
What do you mean by 1-dimensional? a line?

A ray (As those things can't move back and forth )..they just move in one direction.
 

Similar threads

Fresnel zones of a planar wavefront
Replies
15
Views
2K
B How do you explain a plane wavefront based on huygens' principle?
Replies
2
Views
2K
What is the pattern of circular wavefronts produced by a moving source?
Replies
1
Views
2K
I Does two-slit sound-wave interference pattern return to original form?
Replies
10
Views
2K
Finding Resultant Force Using Cosine and Sine Law
Replies
2
Views
7K
Wavefronts and Longitudinal Waves Displacement-Time Graph
Replies
1
Views
7K
Java Kotlin --> Plotting Two Curves on the Same Plot
Replies
0
Views
846
Simple pendulum with moving support
Replies
4
Views
925
I Need to resort to spherical wavefront to derive the LTs?
3
Replies
123
Views
7K
Trying to understand electromagnetism
Replies
38
Views
3K

Hot Threads

Recent Insights

Back
Top