Why Do Ripples Form on Water's Surface?

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In summary, ripples are formed in water when a source of energy, such as a thrown stone, disturbs the equilibrium state of the water. This creates a conflict between gravity and surface tension, resulting in periodic wavelike motion. Ripples are different from surface waves on land and can be influenced by the medium's elastic properties.
  • #1
boredooom
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Can someone give me a basic-ish explanation of why ripples are formed in the water when for example you throw a pebble in a lake or something?

Thanks
 
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  • #2
boredooom said:
Can someone give me a basic-ish explanation of why ripples are formed in the water when for example you throw a pebble in a lake or something?

Thanks

You need three basic ingredients

1) a piece of matter (ie the water) that has some kind of elasticity (cohesion between the water molecules) in an equilibrium state

2) a source of energy that that will destroy that equilibrium state (ie the stone that you throw which distrubs the equilibrium state)

3) gravity acting as the force that tries to restore the equilibrium level

2) and 3) are two CONFLICTING phenomena which give rise to a periodic wavelike motion of the water: ie the ripples that you see.

More here : http://hyperphysics.phy-astr.gsu.edu/hbase/sound/wavplt.html#c3

marlon
 
  • #3
uhhh... ripples dude, they're like surface waves. you know when you get a kind of retrograde particle movement. ughhh??

are you saying why are they periodic? hmmmm... good question, probly coz the disturbance is ummmm vck?
 
  • #4
As for RIPPLES, we should probably add SURFACE TENSION as yet another restoring force besides gravity that might be relevant. For waves with larger wave-lengths, we may ignore the surface tension, but ripples have fairly short wave lengths.
 
  • #5
You can also think of the peridicity as a resultant of the medium that is being disturbed wishing to return back to it's undisturbed state. When you throw a stone into the water, the water is disturbed by the addition of energy. That energuy goes into making a wave. The water has resisitive forces which try to balance the added energy.
 
  • #6
Actually the surface waves on water are kind of different from surface waves on land aren't they? On water they are evenly spaced because the surface is bobbing up and down periodically as a result of the initial disturbance which spreads out carrying information/energy in a big circle. I'd imagine that the surface tension is very important here.

On land the surface waves are caused by supercritical incoming seismic waves which combine and move along at a group velocity. I was thinking they were probably the same as ripples in some way, but of course s-waves can't travel in a fluid and ripples as far as I am aware are not associated with any strain, just particle displacement.
 

1. Why do ripples form in water?

Ripples form in water due to the movement of wind or other disturbances on the surface of the water. When these disturbances occur, they cause the water molecules to move in a circular motion, creating a ripple effect.

2. What causes the circular motion of water molecules?

The circular motion of water molecules is caused by the surface tension of the water. Surface tension is the force that holds the molecules together at the surface of the water, allowing for the circular motion to occur.

3. Can ripples form in still water?

Yes, ripples can form in still water. While wind is the most common cause of ripples, other factors such as vibrations or objects moving through the water can also cause ripples to form.

4. Why do ripples get bigger and smaller?

Ripples get bigger and smaller because of the interference of waves. When two waves overlap, they can either amplify or cancel each other out, causing the ripples to appear bigger or smaller, respectively.

5. Are ripples important for any scientific research?

Ripples are important for various scientific research, including fluid dynamics, hydrology, and climate studies. They can also provide valuable information about the properties of water, such as its surface tension and viscosity.

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