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Does a slinky go faster on wood or carpet?
A slinky will likely move faster on wood compared to carpet due to less friction between the slinky and the surface. The smoother surface of the wood allows for less resistance, enabling the slinky to travel more quickly.
How does the slinky toy behave as you move it up and above?
As you move a slinky toy up and then release it, the coils compress together due to gravity, causing the slinky to contract and move downward in a spring-like motion. The slinky will continue to bounce and oscillate until the internal energy dissipates.
What happens to the amplitude of the longitudinal waves as the waves move from the large coil slinky to the small coil slinky?
The amplitude of longitudinal waves decreases as they move from the large coil slinky to the small coil slinky due to energy loss caused by friction and absorption. This results in a reduction in the intensity of the waves as they propagate through the smaller coil slinky.
How does the slinky toy believe as you move it up and down?
The slinky toy is a spring. As you move it up and down the coils in the spring will cause it to become longer, then shorter.
How do particles move in a slinky?
When a slinky is compressed or stretched, particles within the slinky oscillate back and forth in a wave-like motion. The energy from compressing or stretching the slinky is transferred through these oscillating particles. As the energy travels through the slinky, it causes the particles to push against one another, creating the classic slinky wave effect.
What happens to the slinky wave when it reaches the second person?
When a slinky wave reaches the second person, the wave is transmitted through the slinky to the second person. The person may feel the wave energy passing through the slinky, causing it to vibrate and potentially move.
What type of wave does a slinky have?
A slinky creates transverse waves when it is stretched and released. These waves move in a side-to-side or up-and-down motion, with the coils of the slinky vibrating perpendicular to the direction of wave propagation.
How do you make a slinky walk?
To make a slinky walk, hold one end of the slinky and let the other end dangle. Gently move your hand up and down so that the slinky "walks" down your hand in a wave-like motion. The momentum of the slinky moving down your hand causes it to walk.
How can a slinky toy demonstrate the difference between a transverse and longitudinal wave?
If you hold the ends of a slinky toy so that it is stretched out horizontally you can demonstrate excitations of both transverse and longitudinal waves. If you move one end of the slinky up and down in a periodic fashion you will see transverse waves. If you move one end of the slinky in and out along the horizontal direction that it is stretched out in, you will excite longitudinal waves.
Is a slinky wave a transverse or a longitudinal wave?
A slinky wave is a transverse wave. Transverse waves are perpendicular to the direction the wave travels, and in the case of a slinky wave, the coils move back and forth in a direction perpendicular to the wave's propagation.
How was the slinky invented?
The slinky was invented by Richard James in 1945 when he accidentally knocked over a coiled spring and saw how it "walked" down some books. Recognizing its potential as a toy, he and his wife Betty developed the idea further and introduced the slinky to the market.
What is a slinky seismology?
Slinky seismology is a simple and educational experiment where a slinky toy is used to simulate and demonstrate how seismic waves travel through different materials. By shaking one end of the slinky, users can observe how the energy is transferred through the coils, similar to how seismic waves move through the Earth's crust.
