No, I would give it the cold shoulder.
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.
First the male would have to see the female crab.Then he would stand up high and wave his big claw back and fourth severle times.
I would first see if it was ok to swim in and then carry on swimming
It travels as a transverse wave. A longitudinal wave would mean the the rope is stretching and compressing. The fact that you see displacement perpendicular to the rope means it is transverse.
i don't know please help me.
If the ribbon end is shaken up and down you would see a transverse wave.
Exactly what you asked me it was visible wave a wave you can see nut ball.
The frequency of a light wave determines its color. Refer to the electromagnetic spectrum to see the exact wavelengths of certain waves and what their colors would be.
The amplitude of a wave produces the intensity of the wave. With a light wave, it is the intensity of the light, with a sound wave, it is how loud the sound is
An electron microscope can only see things as thin or thinner than the wave length of light
The highest temperature in a heatwave can vary depending on the region and weather conditions, but it is typically above 90°F (32°C) for an extended period of time. Heatwaves can sometimes see temperatures reaching well over 100°F (37.7°C) in some areas, leading to dangerous conditions for both humans and ecosystems.
Wavelength is the distance between two sequential points of equal amplitude (same height) and phase of a wave. The waves we see and hear around us are of two forms. S waves are the sort of waves we would see on the surface of water. In these waves the medium (matter through which the waves travel) move back and forth orthogonally (90 degrees) to the direction of travel of the wave. In compression waves like sound waves (called P waves in seismology), the medium moves back and forth in the same direction as the wave travels. The wave length is the distance between two equivalent points in both the amount the medium is moving and the direction. In ocean waves this would be the back of one wave to the back of the next OR from the front of one wave to the front of the next OR from the top of one wave to the top of another