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The movement of energy through substances in longitudinal waves is sound. :)
It would be a longitudinal wave. If you were to conduct an experiment to see which wave travels in the same direction as the disturbance, you would take a slinky and push it. And if you watch the wave, you'll see that it travels through the slinky outward, and travels back to the disturbance (your hand). This wave is a longitudinal wave.
That would be 4.53592 Kg.
One clear indication is that light can be polarized. By their nature, longitudinal waves can't be polarized.
pressure waves longitudinal waves
ritualism
A longitudinal study is a study that goes on for a long time. An example of this method of research would be an ethnography.
Did you manage to finish your sentence?The correct usage would be "did you manage to finish?"
compression and rarefraction
When an solid wire/string is stretched, its length increases and diameter decreases. Transverse strain=d/D d=change in diameter D=original diameter Longitudinal strain=l/L l=change in length L=original length Poisson's Ratio=Transverse strain/Longitudinal strain=dL/Dl Alternatively, think about it in 3 dimensions. Assume we are pulling a piece of rubber in one dimension (X axis). In that dimension, the rubber gets longer. In the other 2 dimensions (Y and Z axes), the rubber gets smaller. (It 'necks' down.) For an incompressible material, the total volume cannot change with applied load, so for each unit the rubber gets longer in the X axis, it must get shorter in the total of the other 2 axes (Y + Z). Assuming the material is isotropic (as pure rubber would be), the changes in the Y and Z axes would be the same, and would need to total that of the X axis. So, as described above, Poissons Ratio would be dZ/dX or dY/dX, both of which would be 0.5 .
The movement of energy through substances in longitudinal waves is sound. :)
It would be a longitudinal wave. If you were to conduct an experiment to see which wave travels in the same direction as the disturbance, you would take a slinky and push it. And if you watch the wave, you'll see that it travels through the slinky outward, and travels back to the disturbance (your hand). This wave is a longitudinal wave.
longitudinal design
The effector strain of bacteria is that the bacteria would colonize on the teeth and help prevent the child from developing cavities.
We would manage fine.
With a notebook.
A slinky can transfer both longitudinal and transverse waves.