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Question 1 Water: Start with the Water tab. Note that light areas represent places where the water is high (crests). Dark areas represent low points (troughs). The water drops should already be dripping from the faucet. You can inerease their frequency and amplitude by using the Frequency and Amplitude slider. Using the controls on the far right, you can add measuring tools, add wall, add another faucet, or insert a single-slit or tw0-slit barrier. Part A What kind of wave patterns do you observe in the sink in the top view? I Part B Click on the Show Graph button in the top right corner of the window. The graph shows the moving water level, which is the actual amplitude of the waves. What general mathematical graph function does this look like? What pattern do you observe in the amplitude of these waves? Provide a hypothesis to explain this pattern in the amplitude. I Part C What happens when you increase the frequency of the water drops? What happens to the wavelength of the waves on the surface of water? PLZ ANSWER ALL FOR BRAINLIEST​

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michellesmith82125

Answer:

Looks like a cosine function graph. The wave pattern is transversal waves . The faster the amplitude the higher the wave. The force of the drop hitting the water pushes the water down and out causing waves  If the water hits from a higher amplitude the waves raise bigger . When you increase the frequency of the water drops the waves move faster but no bigger.  When you increase the frequency of the water drops the wave ripples faster .

Explanation:

priceamber103

Answer:

The wave pattern is transversal waves. The faster the amplitude the higher the wave. The force of the drop hitting the water pushes the water down and out causing waves. If the water hits from a higher amplitude the waves raise bigger. When you increase the frequency of the water drops the waves move faster but not bigger. When you increase the frequency of the water drops, the wave ripples faster

Explanation:

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