Self-Teaching SHM: Transverse Waves & Variables

AI Thread Summary
Transverse waves are described by three variables: y, x, and t, where y represents the displacement of a point on the wave, x indicates the position along the x-axis, and t denotes time. The equation y = h(x, t) illustrates that displacement varies both with position and time. At any fixed x position, the displacement y changes periodically over time, reflecting the wave's motion. Thus, x specifies the location of a string element, while y captures the wave's displacement at that location. Understanding these variables is crucial for grasping the behavior of transverse waves.
MarcL
Messages
170
Reaction score
2
So, I have to self-teach myself part of my class. However, there's one part of my book I can't understad at all.

First, I would like to understand, why does a transverse motion has 3 variable, y,x, and t . In my book they give the explanation y=h(x,t) and when we find the formula of the wave we get y=Asin(kx +/- wt).

I'm wondering, if y is the displacement of one element of a string, then what does x represent? I'm all confused :/
 
Physics news on Phys.org
Yes, y represents displacement, x specifies at what point along the x-axis. Just think about a picture of the wave... obviously displacement is not the same at every x position, and even if you stay at one x position, the displacement varies in time, hence the need for both variables.
 
so x represent the displacement of the wave itself?
 
No, it specifies the position in the direction that the wave is traveling. If you just have a function y(x), what does x represent? What does y represent? Nothing changes for y(x,t) except that y now changes as time passes, meaning if you say at the same x position, the displacement (y) changes (periodically, in this case). In the terms you put it, x is the position of a particular "element" of the string.
 
Thread 'Gauss' law seems to imply instantaneous electric field'

Thread 'Gauss' law seems to imply instantaneous electric field'

Imagine a charged sphere at the origin connected through an open switch to a vertical grounded wire. We wish to find an expression for the horizontal component of the electric field at a distance ##\mathbf{r}## from the sphere as it discharges. By using the Lorenz gauge condition: $$\nabla \cdot \mathbf{A} + \frac{1}{c^2}\frac{\partial \phi}{\partial t}=0\tag{1}$$ we find the following retarded solutions to the Maxwell equations If we assume that...
View full post »

Thread 'Do electron density waves accompany EM waves in coaxial cables?'

Maxwell’s equations imply the following wave equation for the electric field $$\nabla^2\mathbf{E}-\frac{1}{c^2}\frac{\partial^2\mathbf{E}}{\partial t^2} = \frac{1}{\varepsilon_0}\nabla\rho+\mu_0\frac{\partial\mathbf J}{\partial t}.\tag{1}$$ I wonder if eqn.##(1)## can be split into the following transverse part $$\nabla^2\mathbf{E}_T-\frac{1}{c^2}\frac{\partial^2\mathbf{E}_T}{\partial t^2} = \mu_0\frac{\partial\mathbf{J}_T}{\partial t}\tag{2}$$ and longitudinal part...
View full post »

Similar threads

A Electric and magnetic field lines in a plane wave of finite extent
Replies
1
Views
1K
I Physical Meaning of the Imaginary Part of a Wave Function
Replies
1
Views
2K
B [SOLVED] Regarding the Superposition of Two Plane Waves
Replies
5
Views
1K
B How Does Phase Change Affect the Equation of a Stationary Wave?
Replies
12
Views
2K
Wave function - displacement - transverse wave
Replies
3
Views
2K
I Don’t understand the general form of the Sinusoidal Wave Equation
Replies
5
Views
2K
Longitudinal Wave Equation meaning and derivation
Replies
4
Views
7K
B Traveling wave solution notation
Replies
4
Views
2K
Understanding SHM: Calculating the Wave Function of a Simple Harmonic Wave
Replies
4
Views
4K
Standing wave transverse motion and amplitude
Replies
5
Views
2K

Hot Threads

Recent Insights

Back
Top