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Are the compress ions found on the same location in the slinky before and after hitting the wall?
No, the compressions in the slinky will be in different locations before and after hitting the wall. When the slinky hits the wall, the compressions will shift due to the impact. This is because the energy of the impact will cause a disturbance in the arrangement of the coils.
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Are compressions found on the same location in the slinky before and after hitting the wall?
No, compressions in a slinky are not found at the same location before and after hitting the wall. When a compression wave hits the end of a slinky, it reflects back as a rarefaction wave back into the slinky, resulting in a new pattern of compressions and rarefactions.
Are the compressions found on the same location in the slinky before and after hitting the wall?
No, the compressions found on the slinky will be different before and after hitting the wall. Before hitting the wall, the compressions will be moving towards the wall. After hitting the wall, the compressions will be reflected back towards the source of the disturbance.
Is a slinky a spring and what type is it?
Yes, a slinky is a type of spring. Specifically, it is a helical spring, made of coiled wire that can stretch and compress in a wave-like motion.
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.
How would you describe the motion of an individual coil of the slinky?
As a slinky is compressed and released, each individual coil undergoes both stretching and compression motions. When you compress the slinky, the coils squish together and when you release it, the coils expand outward. This back-and-forth motion continues until the slinky comes to rest.
Are compressions found on the same location in the slinky before and after hitting the wall?
No, compressions in a slinky are not found at the same location before and after hitting the wall. When a compression wave hits the end of a slinky, it reflects back as a rarefaction wave back into the slinky, resulting in a new pattern of compressions and rarefactions.
Are the compressions found on the same location in the slinky before and after hitting the wall?
No, the compressions found on the slinky will be different before and after hitting the wall. Before hitting the wall, the compressions will be moving towards the wall. After hitting the wall, the compressions will be reflected back towards the source of the disturbance.
What type of wave would a slinky represent?
A slinky represents a longitudinal wave, where the disturbance is parallel to the direction of energy transfer. When you compress or expand the coils of the slinky, the disturbance travels through the slinky as a longitudinal wave.
Is a slinky a spring and what type is it?
Yes, a slinky is a type of spring. Specifically, it is a helical spring, made of coiled wire that can stretch and compress in a wave-like motion.
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.
How would you describe the motion of an individual coil of the slinky?
As a slinky is compressed and released, each individual coil undergoes both stretching and compression motions. When you compress the slinky, the coils squish together and when you release it, the coils expand outward. This back-and-forth motion continues until the slinky comes to rest.
How can you make compression wave using a slinky?
To create a compression wave in a slinky, you can compress one end and release it quickly. The compression will travel through the slinky as a wave, with the coils getting closer together and then returning to their original spacing. This is similar to how energy is transferred through a medium in a compression wave.
What happends in the particles in the compression and refraction in a slinky?
In compression, the particles in a slinky are pushed closer together, increasing the density and creating a temporary increase in pressure. In refraction, the particles are spread apart, decreasing the density and creating a temporary decrease in pressure. This causes the slinky to stretch and compress as the wave travels through it.
Toys that start with a S?
a slinky a slinky fun for everyone a slinky a slinky
Which slinky will go faster a slinky jr or a slinky?
I think that the Slinky original is the best. It's bigger than the Slinky Jr. and will most likely go faster! BTW, I LOVE Slinky! Chow, ;)
What is equilibrium position in sound waves?
Equilibrium position of A wave: "When wave is in rest position its called equilibrium position of a wave" Definition:- A wave can be described as a disturbance that travels through a medium from one location to another location. \ Example: Consider a slinky wave as an example of a wave. When the slinky is stretched from end to end and is held at rest, it assumes a natural position known as the equilibrium or rest position. The coils of the slinky naturally assume this position, spaced equally far apart. To introduce a wave into the slinky, the first particle is displaced or moved from its equilibrium or rest position. The particle might be moved upwards or downwards, forwards or backwards; but once moved, it is returned to its original equilibrium or rest position. The act of moving the first coil of the slinky in a given direction and then returning it to its equilibrium position creates a disturbance in the slinky. We can then observe this disturbance moving through the slinky from one end to the other. If the first coil of the slinky is given a single back-and-forth vibration, then we call the observed motion of the disturbance through the slinky a slinky pulse. A pulse is a single disturbance moving through a medium from one location to another location. However, if the first coil of the slinky is continuously and periodically vibrated in a back-and-forth manner, we would observe a repeating disturbance moving within the slinky that endures over some prolonged period of time. The repeating and periodic disturbance that moves through a medium from one location to another is referred to as a wave.
What is the length of a slinky stretched out?
The length of a slinky when fully stretched out varies depending on the size of the slinky. On average, a standard slinky can stretch out to approximately 2 meters (6.6 feet) in length.
