Signal Noise
Information in an electronic signal can be affected by noise. Noise is any unwanted disturbance in a signal. If you've ever seen interference when watching TV, then you've witnessed signal noise.
There are many causes of noise, and it can be introduced into a signal when the information is recorded, processed, transmitted, or received.
6. Suppose the analog signal shown here is from a music program on the radio. How do you think the music would be affected by the noise when you listen to it on the radio? Explain
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Answer:
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Answer: The noise in an analog signal can affect the quality of the signal and cause distortion in the original waveform. In the case of a music program on the radio, noise can cause unwanted sounds, such as static, crackling, or hissing, which can interfere with the quality of the music being played.
The effect of noise on the music depends on the level and type of noise, the sensitivity of the receiver, and the quality of the equipment used to process and amplify the signal. In general, the more noise that is present, the more noticeable the degradation of the music will be.
However, it's important to note that some types of music may be more resistant to noise than others. For example, music with a lot of bass or percussion may mask some of the noise, while music with a lot of high-frequency content may be more affected by noise. Additionally, some listeners may be more sensitive to noise than others and may notice the degradation of the signal more readily.
Explanation:
Related Questions
Why it was important that Gregor Mendel used thousands of pea plants in his experiments? Would Mendel have found the same results if he had used only twenty plants? Explain.
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Answer:
Explanation:
Gregor Mendel used thousands of pea plants in his experiments to ensure that his results were accurate and reliable. By using a large sample size, he was able to reduce the effects of chance and random variation in his experiments. This is important because biological systems are complex and variable, and small sample sizes can lead to inaccurate or misleading results.
Mendel's experiments involved crossing pea plants with different traits (e.g., tall vs. short, yellow vs. green), and he counted the number of offspring with each trait. He found that the offspring followed predictable patterns of inheritance, which he summarized in his laws of inheritance.
If Mendel had used only twenty plants in his experiments, he may not have obtained the same results. With a small sample size, chance events can have a greater impact on the results. For example, if he crossed two pea plants with different traits and obtained only a few offspring, it's possible that chance events (such as mutations or environmental factors) could have influenced the results. This could lead to false conclusions about the inheritance of the traits.
Therefore, using a large sample size was critical to Mendel's success in developing his laws of inheritance. It allowed him to detect patterns that were consistent across many different crosses, and to demonstrate that these patterns were not the result of chance variation.
In what ways are sexual and asexual production in plants similar, and in what ways do they differ?
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Answer: Plants reproduce in two ways: sexually and asexually. . By fusing gametes, sexual reproduction generates children. As a result, the offspring are genetically distinct. Asexual reproduction results in the formation of new people without the fusing of gametes.
Sexual and Asexual Reproduction :
Although there are many distinct methods used by living creatures to reproduce, the majority of these methods may be classified as either sexual or asexual reproduction.
Offspring produced by asexual reproduction are genetically identical to either of their parents. Two parents contribute genetic material during sexual reproduction to create distinct children.
There are benefits and drawbacks to both sexual and asexual reproduction, which is why some creatures use both.
Explanation:
For each of the genotype (AA, Aa, aa) determine what the phenotype would be?
Pls help test tmrw….
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4. Coriolis Effect is responsible for the.
5. Storms in united states move from
6. Ocean currents are created by
7. Amount of salt is
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9. Near the equator
10.Salty water is.
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back down.
17. The global conveyor belts take.
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12.Ocean currents move around the globe by.
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14.These Ocean currents carry.
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in that region.
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Answer:
sorry
Explanation:
Which of the following is an example of genetic engineering?
A) manipulating potato genes to improve nutritional value, growth and flavor
B) creating a new identical mouse from the single cell of another mouse
C) a trait that is not advantageous disappearing over multiple generations
D) breeding two fast racehorses to produce offspring that have superior skills
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A) manipulating potato genes to improve nutritional value, growth and flavor
Which animal would most likely be found in a warm area near the equator that gets around two meters of rainfall per year?
A) Deer
B) Zebra
C) Orangutan
D) Wolf
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Answer:
B) Zebra.
Zebras are well adapted to live in warm areas near the equator and can be found in grasslands and savannas where they graze on grasses. They are also able to tolerate a wide range of rainfall patterns, but are commonly found in areas that receive around 2 meters of rainfall per year.Deer are more commonly found in cooler areas with forests, and wolves typically live in colder climates such as forests or tundras. Orangutans are primates that live in tropical rainforests and are adapted to living in areas with high rainfall levels. However, they are not typically found in open savannas or grasslands.